![<?echo $_SERVER['SERVER_NAME'];?>](/template/twentyseventeen/skin/images/header.jpg)
1. Sensor . A device or device capable of sensing a specified measurement and converting it into a usable output signal according to a certain law. There are usually sensitive components and conversion components.
1 A sensor is a part of a sensor that can be directly (or responsively) measured.
2 Conversion element refers to the portion of the sensor that can be sensed (or responded) to the sensitive element and converted to be part of the electrical signal that is transmitted and/or measured.
3 When the output is the specified standard signal, it is called the transmitter.
2. Measurement range . The range of measured values ​​within the allowable margin of error.
3. Range . The algebraic difference between the upper and lower limits of the measurement range.
4. Accuracy . The degree of agreement between the measured result and the true value.
5. Repeatability . The degree of coincidence between the results of multiple consecutive measurements of the same measured quantity under all of the following conditions:
The same measurement method:
Same observers:
Same measuring instrument:
Same place:
Same use condition:
Repeat in a short period of time.
6. Resolution . The minimum amount of change that the sensor may detect within the specified measurement range.
7. Threshold . The smallest change that can be measured at the output of the sensor to produce a measurable change.
8. Zero . Make the absolute value of the output minimum, such as the equilibrium state.
9. Incentives . The external energy (voltage or current) applied to make the sensor work properly.
10. The maximum incentive . The maximum value of the excitation voltage or current that can be applied to the sensor under local conditions.
11. Input impedance . The impedance measured at the input of the sensor when the output is short-circuited.
12. Output . There is an amount of electricity generated by the sensor that is measured as a function of the sum.
13. Output impedance . The measured impedance at the output of the sensor when the input is short-circuited.
14. Zero output . In indoor conditions, the sensor output is added when measured to zero.
15. Lag . Within the specified range, the maximum difference that occurs in the output when the measured value increases and decreases.
16. Late . The time delay of the change in the output signal relative to the input signal.
17. Drift . At certain intervals of time, there is an undesired amount of change in the sensor output that is not related to the measurement.
18. Zero drift . Change at zero output during specified time intervals and room conditions.
19. Sensitivity . The ratio of the sensor output increment to the corresponding input increment.
20. Sensitivity drift . Changes in the slope of the calibration curve due to changes in sensitivity.
21. Thermal sensitivity drift . Sensitivity drift due to changes in sensitivity.
22. Thermal zero drift . Zero drift due to changes in ambient temperature.
23. Linearity . The degree to which the calibration curve agrees with a given straight line.
24. Nonlinearity . The degree to which the calibration curve deviates from a given straight line.
25. Long-term stability . The sensor can still maintain its ability to exceed the allowable error for a specified period of time.
26. Natural frequency . When there is no resistance, the sensor's freedom (without external force) oscillates the rate.
27. Response . The characteristics of the measured change at the time of output.
28. Compensate the temperature range . Keep the sensor within the temperature range compensated by the zero balance within the range and the specified limits.
29. Creep . When there are many environmental conditions to be measured in the machine to be measured, the output changes in the specified time.
30. Insulation resistance . In the absence of other regulations, the resistance value measured between the insulation parts of the sensor when applying the specified DC voltage at room temperature.
1 A sensor is a part of a sensor that can be directly (or responsively) measured.
2 Conversion element refers to the portion of the sensor that can be sensed (or responded) to the sensitive element and converted to be part of the electrical signal that is transmitted and/or measured.
3 When the output is the specified standard signal, it is called the transmitter.
2. Measurement range . The range of measured values ​​within the allowable margin of error.
3. Range . The algebraic difference between the upper and lower limits of the measurement range.
4. Accuracy . The degree of agreement between the measured result and the true value.
5. Repeatability . The degree of coincidence between the results of multiple consecutive measurements of the same measured quantity under all of the following conditions:
The same measurement method:
Same observers:
Same measuring instrument:
Same place:
Same use condition:
Repeat in a short period of time.
6. Resolution . The minimum amount of change that the sensor may detect within the specified measurement range.
7. Threshold . The smallest change that can be measured at the output of the sensor to produce a measurable change.
8. Zero . Make the absolute value of the output minimum, such as the equilibrium state.
9. Incentives . The external energy (voltage or current) applied to make the sensor work properly.
10. The maximum incentive . The maximum value of the excitation voltage or current that can be applied to the sensor under local conditions.
11. Input impedance . The impedance measured at the input of the sensor when the output is short-circuited.
12. Output . There is an amount of electricity generated by the sensor that is measured as a function of the sum.
13. Output impedance . The measured impedance at the output of the sensor when the input is short-circuited.
14. Zero output . In indoor conditions, the sensor output is added when measured to zero.
15. Lag . Within the specified range, the maximum difference that occurs in the output when the measured value increases and decreases.
16. Late . The time delay of the change in the output signal relative to the input signal.
17. Drift . At certain intervals of time, there is an undesired amount of change in the sensor output that is not related to the measurement.
18. Zero drift . Change at zero output during specified time intervals and room conditions.
19. Sensitivity . The ratio of the sensor output increment to the corresponding input increment.
20. Sensitivity drift . Changes in the slope of the calibration curve due to changes in sensitivity.
21. Thermal sensitivity drift . Sensitivity drift due to changes in sensitivity.
22. Thermal zero drift . Zero drift due to changes in ambient temperature.
23. Linearity . The degree to which the calibration curve agrees with a given straight line.
24. Nonlinearity . The degree to which the calibration curve deviates from a given straight line.
25. Long-term stability . The sensor can still maintain its ability to exceed the allowable error for a specified period of time.
26. Natural frequency . When there is no resistance, the sensor's freedom (without external force) oscillates the rate.
27. Response . The characteristics of the measured change at the time of output.
28. Compensate the temperature range . Keep the sensor within the temperature range compensated by the zero balance within the range and the specified limits.
29. Creep . When there are many environmental conditions to be measured in the machine to be measured, the output changes in the specified time.
30. Insulation resistance . In the absence of other regulations, the resistance value measured between the insulation parts of the sensor when applying the specified DC voltage at room temperature.
Stainless Steel Barbecue Grill
Barbecue wire Grill Grate is made of high quality 304 stainless steel, never rusting and durable. BBQ Wire mesh does not have any coating or chemical ingredients, making food safer.
Multi-functional Grill Cooking Grid Grate: This wire mesh is mainly used for BBQ Grill Mat for outdoor cooking, it can also be used as a cooling and baking rack. Or you can develop other uses for it.
grill wire mesh,Stainless Steel BBQ Grill Mesh,steel wire BBQ mesh,cooking grid
Shenzhen Lanejoy Technology Co.,LTD , https://www.wire-spring.com