Zd10-100 Datasheet !!hot!! (Full HD)
The data outlined below reflects standard operating parameters compiled from industrial component documentation. Specification Value Notes / Operating Conditions 0 to 500 g Optimized for low-mass/light touch profiles Thickness ≤is less than or equal to 0.25 mm to 0.30 mm Ultra-low profile component Response Point ≤is less than or equal to 20 g to 50 g Force threshold required to trigger transition Initial Resistance Open-circuit value with zero load applied Test Voltage 3.3 V DC (Typical) High compatibility with low-power MCUs Response Time Extremely rapid state transition Recovery Time Durability Lifecycle Actuations before performance degradation Operating Temperature -20°C to 60°C Rated for standard industrial environments EMI / ESD Sensitivity None / Insensitive Immune to high electromagnetic interference Mechanical Dimensions & Form Factor Go to product viewer dialog for this item.
According to retail descriptions available on Amazon and AliExpress, the ZD10-100 features a sealed, flexible waterproof packaging envelope. This makes the sensor resistant to moisture, sweat, and mild liquid splashes, proving critical for close-to-body medical applications or outdoor robotic sensor grids. 3. Geometric Adaptability
Pressure-sensitive buttons that respond differently based on how hard they are pressed.
The is a highly specialized, thin-film force sensor designed to measure pressure or flex by changing its resistance. Due to its flexible, ultra-thin design, it is an ideal component for applications requiring low-profile force detection, such as smart garments, robotics, and user interface devices. The following article details the specifications, operating principles, and applications of the ZD10-100 sensor based on the available data. 1. What is the ZD10-100 Sensor? zd10-100 datasheet
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:
The ZD10-100 is a Zener diode, a type of diode designed to operate in the reverse breakdown region. This allows it to regulate voltage and provide a stable output voltage. The "ZD" prefix indicates that it's a Zener diode, while "10-100" refers to its specific part number and characteristics.
If you can't find a specific datasheet, here are some general parameters you might expect for a Zener diode like the ZD10-100: This makes the sensor resistant to moisture, sweat,
The ZD10-100 is a created using proprietary flexible pressure-sensing technology. It functions as a resistive pressure sensor: its electrical resistance decreases proportionally to an increase in applied pressure.
Because microcontrollers cannot measure resistance directly, you must convert the changing resistance ( RSFcap R sub cap S cap F end-sub into a changing analog voltage ( VOUTcap V sub cap O cap U cap T end-sub ). This is achieved using a . Required Components ZD10-100 Sensor Fixed Resistor ( R1cap R sub 1
The ZD10-100 datasheet provides detailed information on the electrical characteristics, mechanical properties, and application guidelines for the device. The datasheet is typically available from the manufacturer or distributor of the component. The is a highly specialized, thin-film force sensor
The specified operating temperature range is –20 °C to +60 °C. Over this range, the base resistance of the sensor can shift moderately. The official datasheet does not provide a detailed temperature coefficient, so for applications with wide temperature swings or strict accuracy requirements, you should characterise the sensor’s behaviour over your expected temperature range.
The is a highly precise, ultra-thin, and flexible resistance-type thin-film pressure sensor designed for low-to-medium force sensing applications. Engineering datasheets show it operates by utilizing flexible nanometer-scale functional materials printed on a flexible substrate. This structure allows the sensor to exhibit a pressure-resistance relationship where its internal resistance decreases dramatically as external mechanical force is applied. With a force detection range optimized from 0 to 500 grams , the ZD10-100 is highly sought after for human-machine interfaces, smart wearables, medical health monitors, and soft robotics prototyping. Technical Specifications Matrix
The sensor operates on the principle of resistance-type sensing. When the sensor is "at rest" (no pressure), its initial resistance is very high (often >10MΩ). As pressure is applied to the sensing area, the internal conductive layers make better contact, causing the resistance to drop significantly. This change can be easily read by a microcontroller like an Arduino or ESP32 using a simple voltage divider circuit.
< ±5% (at 50% fixed workload loading)