. When pressure is applied to the sensing area, the resistance decreases. This change can be converted into a readable electrical signal (voltage) using a simple voltage divider circuit, often tested at a typical value of . 4. Applications
The pins are made of copper with a tin plating and can be soldered to wires or directly to a PCB. However, because the substrate is thin and flexible, soldering temperatures should be kept as low as possible (recommended below 300 °C, with a short dwell time) to avoid damaging the film.
A deep dive into the formal ZD10-100 datasheet reveals precise specifications designed to streamline hardware layout configuration and embedded programming. Specification Details 100 mm (3.9 inches) Sensor Width 10 mm (0.4 inches) Sensor Thickness ≤0.25is less than or equal to 0.25 Force Sensing Range 0 to 500 grams Response Point (Threshold) ≤20is less than or equal to 20 Typical Operating Voltage Response Speed Recovery Time Mechanical Longevity compression cycles Initial Resistance (No load baseline) Operational Temperature -20°C to 60°C EMI / ESD Susceptibility Completely insensitive / Generates no interference Understanding How the Sensor Works
When searching for the ZD10‑100, be aware that similar part numbers exist for a Zener diode (Z10‑100) and a solar panel (ZD10‑100WP). Always check the component type and manufacturer name (Leanstar) to ensure you are viewing the correct datasheet. zd10-100 datasheet
Resistance is extremely high (>10MΩ), voltage at A0 ≈ 0V.
To measure the pressure, you need to convert the resistance changes into voltage changes using a voltage divider circuit. of the ZD10-100 to VCC (e.g., 3.3V).
ZD10-100 Datasheet: Flexible Thin Film Pressure Sensor Comprehensive Guide Go to product viewer dialog for this item. A deep dive into the formal ZD10-100 datasheet
cap V sub o u t end-sub equals cap V sub c c end-sub cross the fraction with numerator cap R sub s t a t i c end-sub and denominator cap R sub s t a t i c end-sub plus cap R sub cap F cap S cap R end-sub end-fraction As pressure increases, cap R sub cap F cap S cap R end-sub decreases, causing cap V sub o u t end-sub 4. Key Calibration Tips Avoid Kinking:
The manufacturer notes that while there may be ± 15% batch consistency, applying a software-based calibration algorithm can significantly improve accuracy.
When no force is applied, the microscopic gaps separating the conductive silver traces and the nano-scale semiconductor material maintain an open circuit profile. including technical specifications
The ZD10-100 is designed for precision in small-form-factor applications. Specification Sensing Area 10mm Diameter Total Length ~100mm (including tail) is less than 0.25 Force Sensitivity Range 10g to 10kg (approx. Pressure Resolution Continuous (analog) Durability is greater than 1 million activations Operating Temperature 2. How It Works: Force-Resistance Relationship The ZD10-100 acts as a variable resistor. Idle State:
And somewhere, a dusty binder with a Rev. 3.2 datasheet sat on a shelf—proof that sometimes, the best component isn’t the newest. It’s the one you can trust.
This article provides a detailed overview of the , including technical specifications, functional characteristics, pinout configuration, and typical applications, based on information from Flexniss and Sensor-Test.de . 1. Product Overview and Characteristics Go to product viewer dialog for this item.
The following table summarizes the key electrical and physical properties of the ZD10-100 sensor. Specification Thickness Length (Total) Width Sensing Area Initial Resistance Response Point Response Time Recovery Time Durability Test Voltage Typical DC Working Temp EMI & ESD Not Produced / Insensitive 3. Pinout and Circuit Interface is a two-terminal resistive device.