Measurement Range: Describes the range of acceleration that the sensor can measure. It is typically expressed in units of g (gravitational acceleration) or m/s² (meters per second squared).
Resolution: Represents the smallest change in acceleration that the sensor can detect. It is usually given in units of g or m/s².
Sensitivity: Refers to the change in the sensor’s output relative to the input acceleration. It is commonly expressed in units of mV/g (millivolts per g) or mV/m/s² (millivolts per meter per second squared).
Frequency Response: Describes the frequency range of acceleration signals that the sensor can measure. It is typically denoted in units of hertz (Hz).
Nonlinearity: Indicates the maximum deviation between the sensor’s output and the actual input acceleration. It is usually expressed as a percentage or in mV (millivolts).
Offset: Represents the voltage or digital value output by the sensor under zero acceleration conditions. It is commonly given in mV (millivolts) or the sensor’s measurement unit.
Temperature Stability: Describes the stability of the sensor’s output across different temperatures. It is typically expressed as a percentage or in mV (millivolts).
Operating Temperature Range: Refers to the temperature range within which the sensor can operate normally.
Supply Voltage: Indicates the power voltage required for the sensor to function.
Interface Type: Refers to the type of interface used by the sensor to communicate with external systems, such as analog voltage output or digital serial interfaces (e.g., SPI or I2C).
Information
Company Profile
About
Join us
Contact us
