EPE Conseil Cemprotec 34 Quick Start Manual - Page 2

Browse online or download pdf Quick Start Manual for Security Sensors EPE Conseil Cemprotec 34. EPE Conseil Cemprotec 34 2 pages.

Detect ambient electro-smog
supplies), magnetic fields from high voltage lines, transformers and inverters, or Hyper Frequencies resulting from cell towers,
WiFi/WiMax networks or cordless landline phones, etc.)
Press the "on-off" button once to switch on the device in standard mode.
1.
2.
Hold the device at arm length away from your body.
3.
Move slowly around to detect ambient electro-smog (the device performs a new detection every two seconds).
NB: to switch the sound on or off, press and hold the "on-off" button.
Detect ambient Radio Frequencies (RF) smog with enhanced sensitivity (detecting peak values)
cell towers, WiFi/WiMax networks or cordless landline phones, radio and TV broadcasting, etc.)
Press the "on-off" button once to switch on the device in standard mode.
1.
Press the "select" button once to enter high-resolution RF mode. LED 1 and 2 will stay lit.
2.
3.
Hold the device at arm length away from your body.
4.
Move slowly around to detect ambient electro-smog (the device performs a new detection every two seconds).
NB: In this mode, all 24 LEDs show RF radiation. The LEDs at the bottom indicate the lowest radiation level while the LEDs at the top show the
highest level of radiation.
Standard mode table
Low frequency
magnetic and electric
(detection range : 1 MHz - 10 GHz)
Levels
CEMPROTEC lights
[BF] – Alternating
electric field in V/m
(volt per meter)
CEMPROTEC
[RF] – Radio [µW/m²]
(microwatt per
square meter)
Alternating magnetic
field in [nT]
(Nanotesla)
High-resolution RF mode table (enhanced sensitivity)
shown by all of the 24 LEDs). Detection range : 1 MHz - 10 GHz) values in µW/m² (Microwatt per square meter).
Levels
High frequency [µW/m²]
CEMPROTEC
Levels
High frequency [µW/m²]
CEMPROTEC
*Peak values are detected. Actual values may vary slightly from the values specified in this table as a result of differences in individual electronic components.
Exposure limits depend on individual sensitivities. The values measured are purely indicative and shall not engage the liability of E.P.E. Conseil.
Standard mode graph with thresholds
EF: Baubiologie, SBM (2015)
RF: Baubiologie, SBM (2015)
RF: Conseil de l'Europe (Résolution 1815, moyen terme (2011))
EF: TCO 99 norm (1999) et NCRP (USA-1995)
MF: Baubiologie, SBM (2015)
RF:0 V/m
0,08 V/m
RF:0 µW/m²
15 µW/m²
EF:0 V/m
6 V/m
MF:0 nT
20 nT
Indicative field strengths for Radio Frequencies (RF) in Volt per meter (V/m) and Microwatt per square meter (µW/m²), Electric Fields (EF) in Volt per meter (V/m)
and Magnetic Fields (MF) in Nanotesla (nT), depending on the colour of the LEDs that light up. The thresholds mentioned above are recommendations and norms
from the corresponding sources (see below).
Baubiologie MAES-SBM. (2015). Indicative values in Baubiologie for rest rooms. In addition to the stanard measuring technique in baubiologie SBM-2015. Retrieved December 2, 2015, from
2015_fr.pdf. (recommendation)
BioInitiative. (2012). BioInitiative Report 2012. In A Rationale for Biologically-based Exposure Standards for Low-Intensity Electromagnetic Radiation. Retrieved November 16, 2015, from http://www.bioinitiative.org/table-of-contents/.
(recommendation)
Council of Europe. (2011). Resolution 1815 (2011) Final version. In The potential dangers of electromagnetic fields and their effect on the environment. Retrieved November 16, 2015, from
XML2HTML-en.asp?fileid=17994&. (recommendation)
NCRP, (1995) "Biological Effects and Exposure Criteria for Radiofrequency Electromagnetic Fields", NCRP Report No.86, Bethesda, Maryland, USA. (norm)
TCO Development. (2012). TCO-Certified-Displays-6.0. In TCO Development. Retrieved November 16, 2015, from http://tcodevelopment.com/files/2013/04/TCO-Certified-Displays-6.0.pdf#page=28. (norm)
(i.e. electric fields from electric cables and appliances (such as computers, fuse boards, lamps and power
(indicative field strength is shown with each row of 8 LEDs)
field (detection range : 10 Hz - 5 kHz ; detection on all three dimensions (3D) and RF field
0
1
2
3
G1
G2
G1
+
G2
+ Y1
G2
0
6
12
17
0
15
40
70
0
20
60
100
0
1
0
1
12
13
300
400
(indicative field is shown with each row of 8 LEDs)
MF: TCO 99 norm (1999) et NCRP (USA-1995)
0,12 V/m
0,19 V/m
0,27 V/m
40 µW/m²
100 µW/m²
200 µW/m²
15 V/m
20 V/m
25 V/m
80 nT
120 nT
160 nT
4
5
6
7
Y1 +
Y2 +
Y1
Y2
Y2
Y3
22
26
30
34
110
150
200
300
140
180
220
300
When the Peak function is activated only the RF is detected (indicative field strength is
2
3
4
5
2,5
10
20
40
14
15
16
17
550
750
1000
1250
RF: Bio-Initiative (2012) et Conseil de l'Europe (Résolution 1815, court terme (2011))
0,34 V/m
0,43 V/m
300 µW/m²
500 µW/m²
30 V/m
35 V/m
200 nT
300 nT
(i.e. Radio Frequencies resulting from
8
9
10
11
Y3 +
R1 +
Y3
R1
R1
R2
39
45
52
60
500
750
1000
1250
1500
400
650
1000
1500
2000
6
7
8
9
50
75
100
140
18
19
20
21
1500
1750
2000
2250
0,53 V/m
0,61 V/m
0,69 V/m
750 µW/m²
1000 µW/m² 1250 µW/m² 1500 µW/m²
40 V/m
50 V/m
60 V/m
400 nT
1000 nT
1500 nT
http://baubiologie.fr/IMG/pdf/valeurs_sbm-
http://assembly.coe.int/nw/xml/XRef/Xref-
(radio waves)
12
13
14
R2 +
R2
R3
R3
70
80
90
1750
2000
2500
3000
10
11
180
225
22
23
2500
2750
0,75 V/m
70 V/m
2000 nT