ZCT390E-SWP-L LoRaWAN Inclinometer Specification

Product Short Description

ZCT390E-SWP-L wireless inclinometer is a high accuracy tilt sensor developed by Shanghai Zhichuan. Based on LoRaWAN wireless transmitting technology, the inclinometer is capable of detecting ±90℃ tilt. It Can be widely used in municipal projects, telecommunications, thermal, water, electricity and other industries.

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ZCT390E-SWP-L wireless inclinometer is a high accuracy tilt sensor developed by Shanghai Zhichuan. Based on LoRaWAN wireless transmitting technology, the inclinometer is capable of detecting ±90℃ tilt. It Can be widely used in municipal projects, telecommunications, thermal, water, electricity and other industries.

Product Feature

  • Oustanding Performance
  • Industrial Class Components
  • LoRaWAN communication
  • Lower Power Consumption

Applications

  • safety control
  • monitoring
  • alarming
  1. Technical Spec(Data collected at room temperature of 25℃, unless otherwise specified)1. Work parameters

Parameter

Conditions

Min

Typical

Max

Unit

Power Source

3.2

3.6

4.2

V(DC)

Static working current

Standby

5

uA

Working temperature

-40

+85

Stocking Temperature (1

25

30

Note 1:Annual product self-discharge rateis <3%, within the temperature range. Discharge rate will be bigger than 3% if the temperature is beyond the range.

2.Performance:(Data collected at room temperature of 25℃, unless otherwise specified)

Item

Conditions

Minimum

Typical

Maximum

Unit

Mearsuring Range

Two-axis

-30

-30

Degree

Resolution (1

25℃

0.1

Degree

Accuracy

25℃

±1

Degree

Heartbeat Freq

1

Times/day

Battery Capacity

+20℃

8.5

Ah

Battery Working time(2

Relative Measruing Mode

10

Year

Zero Temperature Drift

-40—+85℃

0.04

°/℃

25℃

±1

Degree

Note 1:Resolution refers to the minimum variation that can be detected by the sensor while working in its valid range.

Note2:Under Relative Measuring Modewithout alarmheartbeat rate once per daytemperature 25℃,calculation equation

Standby time (days) =((8.5Ah/(0.000005A*1h+(0.125A/24h)*(40s/3600s)))/24h)*(1-0.03).

Given 8.5Ah as battery capacity0.000005A as standby current0.125A as average transmitting current40s worktime after awaken0.03 as self-discharge rate.


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