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4

CONFIGURATION AND ADJUSTMENT

The EE660 as ordered is ready for use immediately and requires no configuration by the user. If required, the optional USB  

configuration adapter and the E+E Product Configuration Software (EE-PCS) can be used for changing the factory setup as  

well as for adjusting of the air velocity measurement. 

Note: 

The EE660 must not have any additional power supply when using the 

USB configuration adapter

 HA011066.

PC

HA011066

For product data sheets EE-PCS please see 

www.epluse.com

.

The E+E Product Configuration Software (EE-PCS) is free and can be downloaded from 

www.epluse.com/configurator

.

TECHNICAL DATA

(Modification rights reserved)

ACCESSORIES

•  USB configuration adapter 

HA011066

•  Product configuration software  

EE-PCS

 (free download: www.epluse.com/EE660)

•  Power supply adapter  

V03

 (see data sheet Accessories)

Measurand

Working range 

1)

 

0...1 m/s 

(0...200 ft/min)

 

 

0...1.5 m/s 

(0...300 ft/min) 

 

0...2 m/s 

(0...400 ft/min)

Accuracy at 20 °C 

2)

 

(68 °F)

,  

0.15...1 m/s 

(30...200 ft/min)

  ± (0.04 m/s 

(7.9 ft/min)

  + 2 % of mv)

45 % RH, 1013 hPa 

0.15...1.5 m/s 

(30...300 ft/min)

   ± (0.05 m/s 

(9.8 ft/min)

  + 2 % of mv)

 

 

 

  0.15...2 m/s 

(30...400 ft/min)

   ± (0.06 m/s 

(11.8 ft/min)

  + 2 % of mv)

Response time 

τ

90 

3) 

 

 

  typ. 4 sec or typ. 1 sec (at constant temperature)

Output

Analogue

 

 

  0 - 10 V  

  and    4 - 20 mA 

0...1 m/s / 0...1.5 m/s / 0...2 m/s 

1)

 

  -1 mA < I

L

 < 1 mA         R

L

< 450 

 (linear, 3-wires)

Digital interface 

 

 

RS485 with max. 32 devices on one bus

Protocol   

 

  Modbus RTU or BACnet MS/TP

General

Power supply (Class III) 

 

  24 V AC/DC ± 20 %

Current consumption (max.)

AC supply - 

no display

DC supply -

no display

AC supply - 

with display

DC supply -

with display

Analogue ouput

74 mA rms

41 mA

180 mA rms

85 mA

Digital output

120 mA rms

50 mA

-

-

Angular dependence 

< 3% of the measured value at | 

∆α

 | < 10°

Electrical connection 

screw terminals max. 1.5 mm

2

 

(AWG 16)

Cable gland 

M16x1.5

Electromagnetic compatibility 

EN61326-1 EN61326-2-3

  

Industrial Environment

Housing material 

Polycarbonate, UL94V-0 (with Display UL94HB) approved

Protection class 

Enclosure IP65 / NEMA4, remote probe IP20

Temperature range 

working temperature probe 

-25 ... +50 °C 

(-13...122 °F)

 

working temperature electronic 

-10 ... +50 °C 

(14...122 °F)

 

storage temperature 

-30 ... +60 °C 

(-22...140 °F)

Working range humidity 

5...95 % RH (non-condensing)

 

1) Selectable by jumper, only for analogue output

2)  

The accuracy statement includes the uncertainty of the factory calibration with an enhancement factor k=2 (2-times standard deviation).  

The accuracy was calculated in accordance with EA-4/02 and with regard to GUM (Guide to the Expression of Uncertainty in Measurement).

3) Selectable by jumper (analogue) and slide switch (digital)

Содержание EE660

Страница 1: ...probe and mainly onto the sensing head Observe the humidity working range 5 95 RH non condensing Avoid installation in corrosive environment as this may lead to sensor destruction CONNECTING DIAGRAM A...

Страница 2: ...ply voltage within the specified range see technical data at any time and at all devices in the bus This is particularly relevant when using long and thin cables which can cause high voltage drop plea...

Страница 3: ...ter number starts from 0 3 For Modbus protocol setting please see Application Note Modbus www epluse com MODBUS RTU EXAMPLE Example of MODBUS RTU command for reading the temperature float value T 26 6...

Страница 4: ...typ 1 sec at constant temperature Output Analogue 0 10 V and 4 20 mA 0 1 m s 0 1 5 m s 0 2 m s 1 1 mA IL 1 mA RL 450 linear 3 wires Digital interface RS485 with max 32 devices on one bus Protocol Modb...

Страница 5: ...ction Air flow CORRECT INCORRECT The mounting flange allows for precise setting of the EE660 immersion depth in a duct The entire sensing head must be in the air flow to be measured 6 0 24 60 2 36 16...

Страница 6: ...h flow rate Positioning the probe at a location with a laminar to turbulent flow Turbulent flows are caused by pipe bends branches behind flaps flans air heaters air coolers or cross sectional changes...

Страница 7: ...ted in later versions The described products can be improved and changed at any time without prior notice Copyright E E Elektronik Ges m b H All rights reserved EMC note USA FCC This equipment has bee...

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