Datasheet

ENS160 Datasheet v0.95 preliminary / December 2020

9 Output Signal Accuracy

Figure 10: Output Signal Accuracy for Hydrogen

The ENS160 exhibits an excellent

measurement accuracy and device-to-

device variation.

The opposite diagrams show the non-

linearity of several devices (left) and typical

and maximum accuracies (bottom) for

various hydrogen concentrations. A typical

error of <12% of the measured value can be

stated.

10 Initial Start-Up and Warm-Up

Table 9: Initial Start-Up and Warm-Up Timings

Parameter

Maximum Time

Comment

Initial Start-Up

1 hour

See below for further details

Warm-Up

1 minute

10.1 Initial Start-Up

Initial Start-Up is the time the ENS160 needs to exhibit reasonable air quality readings after

its first ever power-on.

The ENS160 sensor raw resistance signals and sensitivities will change upon first power-on.

The change in resistance is greatest in the first 48 hours of operation. Therefore, the ENS160

employs a start-up algorithm, allowing eCO

-, TVOC- and AQI-output signals to be used from

first power-on after 1 hour of operation

10.2 Warm-Up

Further to Initial Start-Up the conditioning or Warm-Up period is the time required to

achieve adequate sensor stability before measuring VOCs after idle periods or power-off.

Typically, the ENS160 requires 1 minute of warm-up before reasonable air quality readings

can be expected

All values have been determined by tests in clean, partially synthetic air in a climate chamber-with stated environmental

conditions, suitable reference analytics and sensor preconditioning of at least 24h, which may not reflect real-life environ-

ments. Unless otherwise noted, the accuracy statements have been carried out at 25°C and 50% relative humidity.

Slightly reduced signal accuracy may be encountered in early phase, thereafter.