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Page 1: Wireless Sensors / ES 1060 T-RH (-CO2/VOC) · VOC sensor: measurement area 0-100%. 0 good Air Quality 100 very bad Air Quality ... Wireless Sensors / ES 1060 T-RH (-CO2/VOC) Connection

Drawing: 950-207484 WirelessSensor_TH_THCO2_THVOC_ES1060Version / Rev. 1.0Date: 7/3-2019Drawn by: BJ/dfManufactured by: LS Control A/S Industrivej 12, DK-4160 Herlufmagle, Denmark

Technical data:Supply: 3 x 1.5V Alkaline battery AASurrounding temperature: 0 - 40°CEnclosure: IP 22Dimensions: 85x85x30 mm

Calculated average battery lifetimeT-RH: 3 yearsT-RH-CO : 2 years2

T-RH-VOC: 1.5 year

Description:

Sensor measures in intervals of 2min, though 2,5min for VOC. Signal is transmitted wireless to Receiver, if necessary via Repeater. Where signal is translated to ModBus or 0-10V signal for controller.

Measurement Areas and AccuracyCO sensor: 0-10000ppm via ModBus. Accuracy: ±10%2

0-2000ppm via 0-10Volt output. Accuracy: ±50ppm RH sensor: 0–80% RH. Accuracy ± 4% RHTemperature sensor: 0-50°C. ±2% VOC sensor: measurement area 0-100%. 0 good Air Quality 100 very bad Air Quality

Sensor-to-sensor deviation ±15%

Mounting:For wall mounting on stable non vibrating surface. Avoid direct sunlightand thermal stress.

Adjustment:

The CO sensor uses the widely used ABC algorithm, which ensures 2

long life without calibration. Only the room cannot be used constantly, but must regularly get sufficient airflow to lower the CO to fresh air 2

level.

[email protected] tel. +45 5550 5550 fax +45 5550 2265

Wireless Sensors / ES 1060 T-RH (-CO2/VOC)

Connection - Setting the Dip-Switches

SW1 SW2

S e n s o r n u m m e r S W 1 _ 1

S W 1 _ 2 S W 1 _ 3 S W 1 _ 4 S W 2 _ 1

0 O F F O F F O F F O F F O F F

1 O N O F F O F F O F F O F F

2 O F F O N O F F O F F O F F

3 O N O N O F F O F F O F F

4 O F F O F F O N O F F O F F

5 O N O F F O N O F F O F F

6 O F F O N O N O F F O F F

7 O N O N O N O F F O F F

8 O F F O F F O F F O N O F F

9 O N O F F O F F O N O F F

1 0 O F F O N O F F O N O F F

1 1 O N O N O F F O N O F F

1 2 O F F O F F O N O N O F F

1 3 O N O F F O N O N O F F

1 4 O F F O N O N O N O F F

1 5 O N O N O N O N O F F

1 6 O F F O F F O F F O F F O N

1 7 O N O F F O F F O F F O N

1 8 O F F O N O F F O F F O N

1 9 O N O N O F F O F F O N

2 0 O F F O F F O N O F F O N

2 1 O N O F F O N O F F O N

2 2 O F F O N O N O F F O N

2 3 O N O N O N O F F O N

2 4 O F F O F F O F F O N O N

2 5 O N O F F O F F O N O N

2 6 O F F O N O F F O N O N

2 7 O N O N O F F O N O N

2 8 O F F O F F O N O N O N

2 9 O N O F F O N O N O N

3 0 O F F O N O N O N O N

3 1 O N O N O N O N O N

N e tvæ r k s n u m m e r S W 2 _ 2

S W 2 _ 3 S W 2 _ 4

0 O F F O F F O F F

1 O N O F F O F F

2 O F F O N O F F

3 O N O N O F F

4 O F F O F F O N

5 O N O F F O N

6 O F F O N O N

7 O N O N O N

Setting of the dip-switches determine a sensors number within a network of sensors. If only one sensor is to be used, all switches are set in pos. OFF.

It is possible to set-up up to 7 networks including 31 sensors in each network. Every network needs its own receiver and potential repeaters. All sensors in a network must have set the same network number.

Network number is set using dip-switch SW2_2, SW2_3 and SW2_4. If only one network is used all switches are set to OFF.

Sensor Number

Network Number SW2_2 SW2_3 SW2_4

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