Zd10-100 Datasheet [verified] -

| | Value | | :--- | :--- | | Sensor Type | Resistive Force Sensor | | Pressure Range | 0 ~ 500g | | Thickness | < 0.3mm | | Response Point | < 20g; as low as 15g in some configurations | | Repeatability | ±10% (for 50% load) | | Consistency (Model Batch) | ±10% | | Hysteresis | +10% (RF+ - RF-)/RF+ | | Durability | > 1,000,000 cycles | | Initial Resistance (No Load) | > 10MΩ (typically, indicating an open circuit) | | Response Time | < 10ms | | Recovery Time | < 15ms | | Test Voltage | DC 3.3V (typical) | | Operating Temperature | -20°C ~ 60°C | | EMI (Electromagnetic Interference) | Does not produce | | ESD (Electrostatic Discharge) Sensitivity | Not sensitive | | Dimensions (L x W) | 100mm x 10mm |

Resistance is extremely high (>10MΩ), voltage at A0 ≈ 0V.

This simple Arduino-compatible C++ script tracks the sensor's pressure threshold. It identifies whether the compression force passes the sensor's initial baseline trigger level. zd10-100 datasheet

Connect of the sensor directly to an analog input pin on your microcontroller development board.

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For a single sensor, repeatability under identical loading conditions is specified as ±5 % (at 50 % load). However, part‑to‑part consistency across different units can be as high as ±15 % for the same batch and larger for different batches. If you are building a multi‑sensor system, individual calibration of each unit is highly recommended.

The ZD10-100 is a resistive sensor, so you need to convert its changing resistance into a measurable voltage signal. The simplest method is the voltage divider approach, where you connect the sensor in series with a fixed resistor. A typical value for this fixed resistor is between 47kΩ and 1MΩ, depending on your desired sensitivity. Then, you read the voltage at the node between the sensor and the resistor. Connect of the sensor directly to an analog

The fundamental physics governing the ZD10-100 sensor utilize the , which defines a precise inverse relationship between applied mechanical force and internal electrical path impedance.

The is a flexible, thin-film pressure sensor (force-sensitive resistor) designed to detect tactile pressure and bending. As pressure is applied to the sensing area, the device's resistance decreases, allowing for precise force measurement through a simple circuit. Key Technical Specifications Specification Pressure Range 0 – 500g (typical) or 0 – 500kg (industrial variant) Response Point Static pressure ≤50gis less than or equal to 50 g or triggering force Thickness ≤0.3mmis less than or equal to 0.3 m m (ultra-thin profile) Response Time Recovery Time Durability >1is greater than 1 million cycles Operating Temp Physical Dimensions Total Length: Approximately 100mm100 m m 104.7mm104.7 m m Width: 10mm10 m m Sensing Area: Pin Pitch: Standard 2.54mm2.54 m m (breadboard compatible). Electrical Characteristics Initial Resistance: (when no load is applied). Test Voltage: Typical DC3.3Vcap D cap C 3.3 cap V

The ZD10-100 is commonly used in a wide range of applications, including: