Common Range Terminology

• Absorbance Range: the range of absorbance values that can be measured or produced by a device, such as a spectrophotometer or material.
• Absorbance Range: the range of absorbance values that can be measured or produced by a device, such as a spectrophotometer or optical filter.
• Acceleration Range: the range of accelerations that can be measured or produced by a device, such as an accelerometer or centrifuge.
• Acceleration Range: the range of accelerations that can be measured or produced by a device, such as an accelerometer or device undergoing motion.
• Acceleration Range: the range of accelerations that can be measured or produced by a device, such as an accelerometer or shaker.
• Acceleration Range: the range of accelerations that can be measured or produced by a device, such as an accelerometer or vibration generator.
• Accuracy Range: the degree to which a device measures or indicates the true value of a physical quantity, expressed as a percentage or fraction of full-scale range, as a maximum deviation, or as a tolerance band.
• Accuracy Range: the range of errors that can be present in a measurement or production, expressed as a percentage or absolute value.
• Accuracy Range: the range of measurements that a device is capable of making or reporting, expressed as the maximum deviation from the true or reference value, or as a percentage of full-scale range.
• Accuracy: The degree of agreement between the actual value of a quantity and its measured or indicated value.
• Adjustable Range: The range of values that a device or system can be set to, within its full-scale range.
• Admittance Range: the range of admittances that can be measured or produced by a device, such as an admittance meter or material.
• Altitude Range: the range of altitude values covered by a device, such as an aircraft or a weather balloon.
• Altitude Range: The range of altitudes over which a device can operate effectively, expressed as a minimum and maximum altitude.
• Altitude Range: The range of altitudes that a device can measure, expressed as a minimum and maximum altitude or as a percentage of full-scale range.
• Altitude Range: the range of altitudes that can be measured or produced by a device, such as a barometer or altitude simulator.
• Altitude Range: the range of altitudes that can be measured or produced by a device, such as a barometer or GPS receiver.
• Altitude Range: the range of altitudes that can be measured or produced by a device, such as an altimeter or drone.
• Amplitude Range: the range of amplitudes that a device can measure or produce, expressed in volts, amps, or decibels.
• Angle Range: the range of angles that can be measured or produced by a device, such as a protractor or theodolite.
• Angle Range: the range of angles that can be measured or produced by a device, such as an inclinometer or gimbal.
• Angular Displacement Range: the range of angular displacements that can be measured or produced by a device, such as an encoder or rotary actuator.
• Angular Position Range: the range of angular positions that can be measured or produced by a device, such as an encoder or rotary actuator.
• Angular Range: the range of angles that can be measured or produced by a device, such as an inclinometer or rotary stage.
• Angular Velocity Range: the range of angular velocities that can be measured or produced by a device, such as a gyroscope or rotary actuator.
• Bandwidth Range: the range of bandwidths that can be measured or produced by a device, such as a spectrum analyzer or filter.
• Bandwidth Range: the range of frequencies over which a device is capable of processing or transmitting signals, expressed as a minimum and maximum frequency or as a ratio of frequency to signal amplitude.
• Bandwidth: The range of frequencies over which a device can produce a specified output, expressed as a minimum and maximum frequency or as a percentage of full-scale range.
• Bandwidth: The range of frequencies that a device or system can handle, measure, or produce without significant loss or distortion.
• Brightness Range: the range of brightness values that can be measured or produced by a device, such as a photometer or display.
• Brightness Range: the range of brightness values that can be measured or produced by a device, such as a photometer or light source.
• Bullet Point List All Range Terminology and Related Definitions.
• Calibration Range: the range of inputs or outputs that a device is designed to measure or produce, within its accuracy and resolution specifications.
• Calibration Range: the range over which a device has been calibrated and for which its performance is specified or guaranteed.
• Capacitance Range: the range of capacitances that can be measured or produced by a device, such as a capacitance meter or capacitor.
• Capacitance Range: the range of capacitances that can be measured or produced by a device, such as a capacitance meter or component.
• Capacity Range: the range of capacities that can be measured or produced by a device, such as a scale or storage device.
• Charge Range: the range of charges that can be measured or stored by a device, such as a charge meter or capacitor.
• Color Range: the range of colors that can be produced or displayed by a device, such as a monitor or printer.
• Color Range: the range of colors that can be produced or displayed by a device, such as a printer or monitor.
• Compensated Range: the range of inputs over which a device can produce accurate outputs, taking into account the effects of temperature, pressure, and other environmental factors, expressed as a minimum and maximum input or as a percentage of full-scale range.
• Compliance Range: the range of inputs or environmental conditions that a device is capable of accepting or tolerating without damage or degradation of its performance.
• Compression Range: the range over which a device compresses or reduces the dynamic range of its input, typically to prevent saturation or to improve signal-to-noise ratio.
• Concentration Range: the range of concentrations that can be measured or produced by a device, such as a spectrophotometer or titrator.
• Conductance Range: the range of conductances that can be measured or produced by a device, such as a conductance meter or component.
• Conductivity Range: the range of conductivities that can be measured or produced by a device, such as a conductivity meter or material.
• Contrast Range: the range of contrast values that can be produced or displayed by a device, such as a display or image.
• Control Range: The range of inputs that a control system can handle, expressed as a minimum and maximum value or as a percentage of full-scale range.
• Current Range: The range of current levels that a device can accept or produce, expressed as a minimum and maximum current or as a percentage of full-scale range.
• Current Range: The range of currents that a device can handle or produce, expressed as a minimum and maximum current or as a percentage of full-scale range.
• Current Range: the range of currents that a device can measure or produce, typically expressed in amps or milliamps.
• Current Range: the range of currents that can be measured or produced by a device, such as an ammeter or power supply.
• Cutoff Range: the range of inputs below or above which a device is designed to reject or ignore, expressed as a lower or upper limit.
• Data Range: the difference between the highest and lowest values in a set of data.
• Data Range: The range of values that a set of data can take, expressed as a minimum and maximum value or as a percentage of full-scale range.
• Deadband Range: the range of inputs over which a device does not produce an output, expressed as a minimum and maximum input or as a percentage of full-scale range.
• Deadband Range: the range of inputs over which a device’s output does not change, resulting in a “dead” or inactive zone in its response.
• Deadband: The range of inputs in which a device or system will not respond, or the range of outputs in which a device or system will not produce any change.
• Deadband: The range over which a control device has no effect, expressed as a minimum and maximum input or as a percentage of full-scale range.
• Density Range: the range of densities that can be measured or produced by a device, such as a densitometer or centrifuge.
• Density Range: the range of densities that can be measured or produced by a device, such as a density meter or material sample.
• Density Range: the range of densities that can be measured or produced by a device, such as a density meter or material.
• Detection Range: the range of inputs over which a device is capable of detecting or distinguishing between signals, expressed as a ratio of the signal to noise levels or as a number of bits.
• Displacement Range: the range of displacements that can be measured or produced by a device, such as a displacement gauge or actuator.
• Displacement Range: the range of displacements that can be measured or produced by a device, such as a displacement meter or actuator.
• Distance Range: the range of distances that a device can measure or produce, typically expressed in meters, millimeters, or micrometers.
• Distance Range: the range of distances that can be measured or produced by a device, such as a ruler or laser rangefinder.
• Distance Range: the range of distances that can be measured or produced by a device, such as a ruler or ultrasonic sensor.
• Distortion Range: the range of distortions that can be measured or produced by a device, such as a distortion analyzer or nonlinear device.
• Drift Range: the range over which a device’s output changes over time, due to temperature, aging, or other factors, expressed as a percentage or fraction of the full-scale range per unit of time.
• Duty Cycle Range: The range of duty cycles over which a device can operate effectively, expressed as a minimum and maximum duty cycle or as a percentage of full-scale range.
• Duty Cycle Range: the range of duty cycles that can be measured or produced by a device, such as a pulse generator or oscilloscope.
• Dynamic Range: The difference between the maximum and minimum levels of a signal that a device can handle, measure or produce without distortion.
• Dynamic Range: the difference between the smallest and largest possible values that can be produced by a device, such as a microphone or camera.
• Dynamic Range: The range of input levels that a device can handle before producing distortion or becoming saturated. In audio and video, dynamic range refers to the difference between the loudest and quietest sounds or signals that can be captured or reproduced.
• Dynamic Range: The range of input signals that a device can accept and process effectively, expressed as a minimum and maximum input or as a percentage of full-scale range.
• Dynamic Range: the range of inputs over which a device can produce output without saturating or producing significant distortion, expressed as a ratio of the maximum to minimum levels or as a number of bits.
• Dynamic Range: the range of signal levels that can be captured or processed by a device, such as a microphone or ADC.
• Dynamic Range: the range of the largest to smallest signals that can be accurately measured or processed by a device, typically expressed in decibels.
• Dynamic Range: the range of values that a device is capable of processing or measuring, expressed as the ratio of the largest to the smallest signal, or as the number of bits or decibels that represent the full range.
• Dynamic Range: the ratio of the largest to smallest signal that a device can process without loss of information, expressed as the decibel difference between the largest and smallest signal levels.
• Dynamic Range: The ratio of the largest to the smallest signals that a device or system can handle, measure, or produce without significant loss or distortion.
• Effective Range: the range at which a weapon, such as a firearm, can effectively hit a target.
• Elasticity Range: the range of elasticity values that can be measured or produced by a device, such as a stress-strain tester or material.
• Electric Field Range: the range of electric fields that can be measured or produced by a device, such as an electric field meter or generator.
• Electric Field Range: the range of electric fields that can be measured or produced by a device, such as an electric field meter or high voltage generator.
• Energy Range: the range of energies over which a device is capable of functioning or operating within its specified limits, expressed as a minimum and maximum energy or as an energy response.
• Energy Range: the range of energies that a device can measure or produce, typically expressed in electron volts or joules.
• Energy Range: the range of energies that can be measured or produced by a device, such as a energy meter or energy storage device.
• Energy Range: the range of energies that can be measured or stored by a device, such as an energy meter or battery.
• Extension Range: the range over which a device extends or expands the dynamic range of its input, typically to provide higher precision or greater accuracy.
• Fall Time Range: the range of fall times that can be measured or produced by a device, such as an oscilloscope or signal generator.
• Flow Range: the range of flow values that can be measured or produced by a device, such as a flow meter or pump.
• Flow Rate Range: the range of flow rates that can be measured or produced by a device, such as a flow meter or pump.
• Focus Range: the range of focus values that can be produced by a device, such as a lens or microscope.
• Force Range: the range of force values that can be measured or produced by a device, such as a force meter or actuator.
• Force Range: the range of forces that can be measured or produced by a device, such as a force gauge or actuator.
• Force Range: the range of forces that can be measured or produced by a device, such as a load cell or actuator.
• Frequency Range: The range of frequencies over which a device can operate effectively, expressed as a minimum and maximum frequency.
• Frequency Range: The range of frequencies over which a device can produce a specified output, expressed as a minimum and maximum frequency or as a percentage of full-scale range.
• Frequency Range: the range of frequencies over which a device is capable of functioning or operating within its specified limits, expressed as a minimum and maximum frequency or as a frequency response.
• Frequency Range: The range of frequencies that a device can handle or produce, expressed as a minimum and maximum frequency or as a percentage of full-scale range.
• Frequency Range: the range of frequencies that a device can measure, generate, or process, expressed in hertz.
• Frequency Range: the range of frequencies that can be measured or produced by a device, such as an oscilloscope or generator.
• Frequency Range: the range of frequencies that can be measured or produced by a device, such as an oscilloscope or signal generator.
• Frequency Range: the range of frequencies that can be used or transmitted by a device, such as a radio or microwave.
• Full-Scale Range: The maximum range of values that a device or system can handle, measure, or produce.
• Gain Range: the range of gain values that can be produced by a device, such as an amplifier or antenna.
• Gain Range: The range of gains that a device can produce, expressed as a minimum and maximum gain or as a percentage of full-scale range.
• Gain Range: The range of output signal levels that a device can produce for a given input signal level, expressed as a minimum and maximum output or as a percentage of full-scale range.
• Gain Range: the range over which a device amplifies or scales its input to produce its output, expressed as a ratio of output to input or as a decibel value.
• Hearing Range: the range of sound frequencies that can be heard by a person or animal.
• Humidity Range: the range of humidities over which a device is capable of functioning or operating within its specified limits, expressed as a minimum and maximum humidity or as a humidity coefficient.
• Humidity Range: the range of humidities that can be measured or produced by a device, such as a hygrometer or humidifier.
• Humidity Range: the range of relative humidities that a device can operate within, expressed as a percentage.
• Humidity Range: the range of relative humidities that can be measured or produced by a device, such as a hygrometer or humidifier.
• Hysteresis Range: the range over which a device produces a different output for the same input depending on whether the input is increasing or decreasing, expressed as a minimum and maximum input or as a percentage of full-scale range.
• Hysteresis Range: the range over which a device’s output changes as the input changes, and then changes back as the input changes back, resulting in a difference between the output at the same input level in different cycles.
• Hysteresis: The difference between the input range required to initiate an increasing output change and the input range required to initiate a decreasing output change.
• Impedance Magnitude Range: the range of impedance magnitudes that can be measured or produced by a device, such as an impedance analyzer or component.
• Impedance Range: The range of impedance values that a device can detect or measure, expressed as a minimum and maximum impedance or as a percentage of full-scale range.
• Impedance Range: the range of impedances that can be measured or produced by a device, such as an impedance analyzer or component.
• Impedance Range: the range of impedances that can be measured or produced by a device, such as an impedance meter or impedance-controlled load.
• Impedance Range: the range of impedances that can be measured or produced by a device, such as an impedance meter or material.
• Inductance Range: the range of inductances that can be measured or produced by a device, such as an inductance meter or component.
• Inductance Range: the range of inductances that can be measured or produced by a device, such as an inductance meter or inductor.
• Input Range: The range of input signals that a device can accept and process, expressed as a minimum and maximum input or as a percentage of full-scale range.
• Input Range: The range of inputs that a device can accept or handle, expressed as a minimum and maximum value or as a percentage of full-scale range.
• Input Range: the range of inputs that a device is capable of accepting, processing or converting into outputs.
• Input Range: the range of inputs that a device is designed to accept, within its calibration and sensitivity specifications.
• Input Range: The range of values that can be input into a device or system.
• Intensity Range: the range of intensities that can be measured or produced by a device, such as an optical power meter or laser.
• Interquartile Range (IQR): the range of the middle 50% of values in a set of numbers, calculated as the difference between the third quartile (75th percentile) and the first quartile (25th percentile).
• Irradiance Range: the range of irradiances that can be measured or produced by a device, such as a radiometer or light source.
• Irradiance Range: the range of radiant powers per unit area that can be measured or produced by a device, such as a radiometer or solar simulator.
• Light Intensity Range: The range of light intensities that a device can handle or measure, expressed as a minimum and maximum intensity or as a percentage of full-scale range.
• Light Intensity Range: the range of light intensities that can be measured or produced by a device, such as a photometer or light source.
• Linear Range: The range of inputs or outputs in which a device or system operates in a linear manner, meaning that the output is proportional to the input.
• Linear Range: the range over which a device produces outputs that are proportional and consistent with its inputs, expressed as a maximum deviation from a straight line or as a percentage of full-scale range.
• Linearity Range: the range over which a device produces outputs that are proportional and consistent with its inputs, expressed as a maximum deviation from a straight line or as a percentage of full-scale range.
• Linearity Range: The range over which a device produces outputs that are proportional to its inputs, expressed as a minimum and maximum input or as a percentage of full-scale range.
• Linearity Range: the range over which a device’s output is proportional to its input, expressed as a percentage or fraction of the full-scale range.
• Load Range: The range of load levels that a device can handle, expressed as a minimum and maximum load or as a percentage of full-scale range.
• Loss Range: the range of loss values that can be produced by a device, such as a cable or material.
• Luminance Range: the range of luminance values that can be measured or produced by a device, such as a photometer or display.
• Luminance Range: the range of luminance values that can be measured or produced by a device, such as a photometer or light source.
• Magnetic Field Range: the range of magnetic fields that can be measured or produced by a device, such as a gaussmeter or electromagnet.
• Magnetic Field Range: the range of magnetic fields that can be measured or produced by a device, such as a magnetometer or electromagnet.
• Magnetic Field Strength Range: the range of magnetic field strengths that can be measured or produced by a device, such as a magnetometer or electromagnet.
• Measurement Range: the range of values that can be accurately measured by an instrument or device.
• Measuring Range: the range of inputs over which a device is capable of providing meaningful and accurate measurements.
• Modulation Range: the range of modulation values that can be produced or transmitted by a device, such as a modulator or communication system.
• Noise Range: the range of noise values that can be produced or measured by a device, such as a noise meter or electronic circuit.
• Noise Range: the range of random or unpredictable variations in a device’s output or measurement, expressed as a standard deviation or a percentage of the full-scale range.
• Non-Linear Range: The range of inputs or outputs in which a device or system operates in a non-linear manner, meaning that the output is not proportional to the input.
• Non-Linear Range: the range over which a device produces outputs that are not proportional or consistent with its inputs, expressed as a maximum deviation from a straight line or as a percentage of full-scale range.
• Non-linearity Range: the range over which a device’s output deviates from a linear relationship to its input, expressed as a percentage or fraction of the full-scale range.
• Note: These definitions are general and may vary in specific fields or contexts.
• Null Range: the range of inputs over which a device produces a minimum or maximum output, expressed as a minimum and maximum input or as a percentage of full-scale range.
• Operating Range: the range of conditions, such as temperature, pressure, or humidity, in which a device is designed to operate within its specified accuracy, resolution, and performance.
• Operating Range: The range of input or environmental conditions under which a device can operate effectively, expressed as a minimum and maximum value or as a percentage of full-scale range.
• Operating Range: the range of input or environmental conditions within which a device is designed to function correctly and safely.
• Operating Range: The range of input or output values within which a device or system can function correctly.
• Operating Range: the range of inputs over which a device can be used safely and effectively, taking into account the specified performance, accuracy, and stability specifications, expressed as a minimum and maximum input or as a percentage of full-scale range.
• Operating Range: The range of values or conditions within which a device can operate safely and effectively.
• Operating Range: the range of values within which a device or system operates correctly and efficiently.
• Output Range: The range of output signals that a device can produce, expressed as a minimum and maximum output or as a percentage of full-scale range.
• Output Range: The range of outputs that a device can produce, expressed as a minimum and maximum value or as a percentage of full-scale range.
• Output Range: the range of outputs that a device is capable of generating or delivering based on its inputs.
• Output Range: the range of outputs that a device is designed to produce, within its calibration and accuracy specifications.
• Output Range: The range of values that can be output from a device or system.
• Overload Range: the range of inputs beyond the normal operating range that a device can withstand without damage or degradation of its performance.
• Overload Range: the range of inputs over which a device can produce an output without damage, expressed as a maximum input or as a percentage of full-scale range.
• Phase Range: the range of phase shifts that a device can measure or produce, expressed in degrees or radians.
• Phase Range: the range of phase values that can be measured or produced by a device, such as a phase meter or oscillator.
• Polarization Range: the range of polarization values that can be measured or produced by a device, such as a polarimeter or material.
• Polarization Range: the range of polarizations that can be measured or produced by a device, such as a polarimeter or optical component.
• Position Range: the range of positions that can be measured or produced by a device, such as a position gauge or actuator.
• Position Range: the range of positions that can be measured or produced by a device, such as a position sensor or stage.
• Power Range: The range of input power levels that a device can handle without damage, expressed as a minimum and maximum power or as a percentage of full-power range.
• Power Range: The range of power levels that a device can handle, expressed as a minimum and maximum power or as a percentage of full-scale range.
• Power Range: The range of power levels that a device can handle, measure, or produce, expressed as a minimum and maximum value or as a percentage of full-scale range.
• Power Range: the range of power values that can be measured or produced by a device, such as a power meter or generator.
• Power Range: the range of powers over which a device is capable of functioning or operating within its specified limits, expressed as a minimum and maximum power or as a power response.
• Power Range: The range of powers that a device can handle or produce, expressed as a minimum and maximum power or as a percentage of full-scale range.
• Power Range: the range of powers that a device can measure or produce, typically expressed in watts or milliwatts.
• Power Range: the range of powers that can be measured or produced by a device, such as a power meter or generator.
• Power Range: the range of powers that can be measured or produced by a device, such as a power meter or power supply.
• Power Range: the range of powers that can be measured or produced by a device, such as a wattmeter or generator.
• Precision: The degree of reproducibility of a set of measurements or the degree to which a device or system can consistently produce the same output for the same input.
• Pressure Range: The range of pressure levels that a device can withstand or measure, expressed as a minimum and maximum pressure or as a percentage of full-scale range.
• Pressure Range: the range of pressures over which a device is capable of functioning or operating within its specified limits, expressed as a minimum and maximum pressure or as a pressure coefficient.
• Pressure Range: The range of pressures that a device can handle or measure, expressed as a minimum and maximum pressure or as a percentage of full-scale range.
• Pressure Range: the range of pressures that a device can operate within, typically expressed in atmospheres, kilopascals, or pounds per square inch.
• Pressure Range: the range of pressures that can be measured or produced by a device, such as a barometer or pump.
• Pressure Range: the range of pressures that can be measured or produced by a device, such as a pressure gauge or pump.
• Pulse Width Range: the range of pulse widths that can be measured or produced by a device, such as a pulse generator or oscilloscope.
• Quality Factor Range: the range of quality factors that can be measured or produced by a device, such as a resonant circuit or material.
• Range of Motion (ROM): the extent to which a joint can move in different directions.
• Range: the difference between the maximum and minimum values in a set of numbers.
• Reactance Range: the range of reactances that can be measured or produced by a device, such as an impedance meter or material.
• Reflectance Range: the range of reflectance values that can be measured or produced by a device, such as a reflectometer or black standard.
• Refractive Index Range: the range of refractive indices that can be measured or produced by a device, such as a refractometer or material.
• Refractive Index Range: the range of refractive indices that can be measured or produced by a device, such as a refractometer or optical material.
• Repeatability Range: the degree to which a device produces the same output for the same input over time, expressed as a maximum deviation or as a tolerance band.
• Repeatability Range: the range over which a device produces consistent results for repeated measurements of the same input signal.
• Resistance Range: the range of resistances that can be measured or produced by a device, such as a multimeter or resistor.
• Resistance Range: the range of resistances that can be measured or produced by a device, such as a resistance meter or component.
• Resistance Range: the range of resistances that can be measured or produced by a device, such as an ohmmeter or resistor.
• Resolution Range: the range of resolutions that can be produced or displayed by a device, such as a camera or screen.
• Resolution Range: the range of smallest distinguishable increments that can be measured or produced by a device.
• Resolution Range: the range over which a device is capable of making or reporting small or distinct measurements, expressed as the smallest step or change that can be detected or reported, or as the number of bits or decimal places that represent the range.
• Resolution Range: the range over which a device is capable of resolving or distinguishing between adjacent levels or signals, expressed as a minimum step size or as a number of bits.
• Resolution Range: The smallest change in input that a device can detect, expressed as a minimum and maximum resolution or as a percentage of full-scale range.
• Resolution Range: the smallest change in input that can produce a noticeable change in output, expressed as the number of bits, steps, or least significant bit (LSB) of a device.
• Resolution: The smallest increment or step size that a device or system can detect, measure, or produce within its full-scale range.
• Rise Time Range: the range of rise times that can be measured or produced by a device, such as an oscilloscope or signal generator.
• Ronald Legarski Range: Range Terminology and Definitions.
• Sampling Range: The range of samples that can be taken by a device, expressed as a minimum and maximum sample rate or as a percentage of full-scale range.
• Sensitivity Range: The range of input signals that a device can detect, expressed as a minimum and maximum input or as a percentage of full-scale range.
• Sensitivity Range: the range of inputs over which a device is capable of detecting or resolving changes or signals, expressed as the minimum input that produces a specified output or as the ratio of output to input.
• Sensitivity Range: the range of inputs over which a device’s output changes in response to changes in the input, expressed as a ratio of output to input.
• Sensitivity Range: the range of smallest input signals that can be accurately measured or processed by a device.
• Signal Range: The range of values that a signal can take, expressed as a minimum and maximum value or as a percentage of full-scale range.
• Signal-to-Noise Ratio Range: the range of signal-to-noise ratios that can be measured or produced by a device, such as a signal generator or noise meter.
• Sound Pressure Level Range: the range of sound pressure levels that can be measured or produced by a device, such as a sound level meter or speaker.
• Speed Range: the range of speeds over which a device is capable of functioning or operating within its specified limits, expressed as a minimum and maximum speed or as a speed response.
• Speed Range: the range of speeds that can be measured or produced by a device, such as a speedometer or vehicle.
• Speed Range: the range of speeds that can be measured or produced by a device, such as a tachometer or motor.
• Stability Range: the degree to which a device maintains a constant output for a constant input over time, expressed as a maximum deviation or as a tolerance band.
• Stability range: the range over which a device is capable of maintaining its performance or characteristics over time, expressed as the maximum change or drift in output or measurement over a specified time interval or environment.
• Strain Range: the range of strains that can be measured or produced by a device, such as a strain gauge or tensile tester.
• Surface Tension Range: the range of surface tensions that can be measured or produced by a device, such as a surface tension meter or material.
• Susceptance Range: the range of susceptances that can be measured or produced by a device, such as a susceptance meter or material.
• Temperature Range: the range of temperatures over which a device is capable of functioning or operating within its specified limits, expressed as a minimum and maximum temperature or as a temperature coefficient.
• Temperature Range: The range of temperatures that a device can handle or measure, expressed as a minimum and maximum temperature or as a percentage of full-scale range.
• Temperature Range: the range of temperatures that a device can operate within, typically expressed in Celsius or Fahrenheit.
• Temperature Range: The range of temperatures that a device can withstand or operate within, expressed as a minimum and maximum temperature.
• Temperature Range: the range of temperatures that can be measured or produced by a device, such as a thermometer or heater.
• Temperature Range: the range of temperatures that can be produced or measured by a device, such as an oven or thermometer.
• Temperature Range: The range of temperatures under which a device can operate effectively, expressed as a minimum and maximum temperature or as a percentage of full-scale range.
• Tension Range: the range of tensions that can be measured or produced by a device, such as a tensiometer or cable.
• Time Range: the range of time values that can be measured or produced by a device, such as a chronometer or timer.
• Time Range: the range of time values that can be measured or produced by a device, such as a clock or timer.
• Time Range: the range of times that a device can measure or produce, typically expressed in seconds, milliseconds, or microseconds.
• Time Range: The range of times that a device can operate or measure, expressed as a minimum and maximum time or as a percentage of full-scale range.
• Time Range: the range of times that can be measured or produced by a device, such as a stopwatch or timer.
• Tolerance Range: The range over which a device’s output can deviate from its specified performance, expressed as a maximum deviation or as a percentage of full-scale range.
• Torque Range: the range of torque values that can be measured or produced by a device, such as a torque wrench or motor.
• Torque Range: the range of torques over which a device is capable of functioning or operating within its specified limits, expressed as a minimum and maximum torque or as a torque response.
• Torque Range: the range of torques that can be measured or produced by a device, such as a torque gauge or motor.
• Torque Range: the range of torques that can be measured or produced by a device, such as a torque wrench or motor.
• Transmittance Range: the range of transmittance values that can be measured or produced by a device, such as a spectrophotometer or material.
• Transmittance Range: the range of transmittance values that can be measured or produced by a device, such as a spectrophotometer or optical filter.
• Velocity Range: the range of velocities that can be achieved or measured by a device, such as a speedometer or accelerometer.
• Velocity Range: the range of velocities that can be measured or produced by a device, such as a tachometer or motor.
• Velocity Range: the range of velocities that can be measured or produced by a device, such as a velocity gauge or actuator.
• Vibration Range: the range of vibration levels that can be measured or produced by a device, such as a vibration meter or shaker.
• Viscosity Range: the range of viscosities that can be measured or produced by a device, such as a viscometer or fluid.
• Viscosity Range: the range of viscosities that can be measured or produced by a device, such as a viscometer or pump.
• Voltage Range: The range of voltage levels that a device can accept or produce, expressed as a minimum and maximum voltage or as a percentage of full-scale range.
• Voltage Range: the range of voltages over which a device is capable of functioning or operating within its specified limits, expressed as a minimum and maximum voltage or as a voltage coefficient.
• Voltage Range: The range of voltages that a device can handle or produce, expressed as a minimum and maximum voltage or as a percentage of full-scale range.
• Voltage Range: the range of voltages that a device can measure or produce, typically expressed in volts or millivolts.
• Voltage Range: the range of voltages that can be measured or produced by a device, such as a voltmeter or power supply.
• Voltage Range: the range of voltages that can be used or produced by a device, such as a battery or power supply.
• Volume Range: the range of volumes that can be measured or produced by a device, such as a burette or container.
• Wavelength Range: the range of wavelengths over which a device is capable of functioning or operating within its specified limits, expressed as a minimum and maximum wavelength or as a wavelength response.
• Wavelength Range: the range of wavelengths that a device can measure or produce, typically expressed in nanometers, micrometers, or millimeters.
• Wavelength Range: the range of wavelengths that can be measured or produced by a device, such as a spectrometer or laser.
• Wavelength Range: the range of wavelengths that can be measured or produced by a device, such as a spectrophotometer or laser.
• Zoom Range: the range of zoom values that can be produced by a device, such as a lens or camera.