Zd10-100 Datasheet New! -
Integrated waterproof outer encapsulation coating
The manufacturer notes that while there may be ± 15% batch consistency, applying a software-based calibration algorithm can significantly improve accuracy.
Intelligent breathing belts, pressure-sensitive clothing, and posture monitors.
For many applications that only require presence detection (e.g., a touch button), calibration is not necessary. zd10-100 datasheet
The provides a robust, high-durability solution for pressure and force sensing in a variety of modern, compact, and flexible electronics. Its ability to work under 3.3V and provide rapid response times makes it an excellent choice for IoT and robotics applications.
Many users miss the "ADJ" potentiometer. The datasheet specifies an output voltage trim range of ±10% (10.8V to 13.2V for the 12V model). This is crucial if you need to compensate for long cable losses or drive a 12V fan at lower speed.
It is non-polarized, meaning the terminals can be connected in either direction. The provides a robust, high-durability solution for pressure
If your application requires linear force measurement, you can:
functions by changing its resistance based on the pressure applied to its sensing area. As pressure increases, the resistance decreases. It is known for its high sensitivity, durability, and ability to conform to curved surfaces. Key Features At
The ZD10-100's flexibility and sensitivity make it suitable for a wide range of industries: The datasheet specifies an output voltage trim range
A third product with a similar naming scheme is the solar panel, which is sometimes shortened to ZD10‑100 in casual listings. This is a 10 W to 100 W photovoltaic module using monocrystalline silicon cells, with conversion efficiencies above 17 %. Because this is an entirely different technology, it is unlikely to be confused with the pressure sensor once you examine the product photographs or datasheet content. Nevertheless, when searching for “ZD10‑100 datasheet”, always confirm the component type (e.g., “pressure sensor”) before ordering.
| Force ( g ) | Typical resistance ( kΩ ) | |-------------|----------------------------| | 50 | 10.29 | | 100 | 5.34 | | 150 | 3.98 | | 200 | 3.32 | | 250 | 2.98 | | 300 | 2.82 | | 350 | 2.66 | | 400 | 2.55 | | 450 | 2.47 | | 500 | 2.43 |
The station’s lead engineer, a man who scoffed at "old parts," stared at the stable readout. “That thing is older than you.”
Wire a stationary pull-down resistor (such as a standard 10k Ωcap omega Ωcap omega