Nanotron Technologies CMCSENS0108V2 User Manual

FCC Required Exhibit 12
CMC-TC SD User Manual (UserMan)
Version 1.01
NA-08-0000-0034-1.01
Document Information
CMC-TC SD (UserMan)
Document Title: CMC-TC SD (UserMan) Document Version: 1.01 Published (yyyy-mm-dd): 2008-04-17 Current Printing: 2008-4-17, 4:46 pm Document ID: NA-08-0000-0034-1.01 Document Status: Released
Disclaimer
Nanotron Technologies GmbH believes the information contained herein is correct and accurate at the time of release. Nanotron Technologies GmbH reserves the right to make changes without further notice to the product to improve reliability, function or design. Nanotron Technologies GmbH does not assume any liability or responsibility arising out of this product, as well as any application or circuits described herein, neither does it convey any license under its patent rights.
As far as possible, significant changes to product specifications and functionality will be provided in product specific Errata sheets, or in new versions of this document. Customers are encouraged to check the Nanotron website for the most recent updates on products.
Trademarks
©
nanoNET names are the sole property of their respective owners.
This document and the information contained herein is the subject of copyright and intellectual property rights under international convention. All rights reserv ed. No part of this documen t may be reproduced, stored in a retrieval system, or transmitted in any form by any means, electronic, mechanical or optical, in whole or in part, without the prior written permission of Nanotron Technologies GmbH.
Copyright © 2008 Nanotron Technologies GmbH.
is a registered trademark of Nanotron Technologies GmbH. All other trademarks, registered trademarks, and product
Life Support Policy
These products are not designed for use in life support appli­ances, devices, or systems where malfunction of these prod­ucts can reasonably be expected to result in personal injury. Nanotron Technologies GmbH customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Nanotron Technologies GmbH for any damages resulting from such improper use or sale.
Electromagnetic Interference / Compatibility
Nearly every electronic device is susceptible to electromag­netic interference (EMI) if inadequately shielded, designed, or otherwise configured for electromagnetic compatibility.
To avoid electromagnetic interference and/or compatibility conflicts, do not use this device in any facility where posted
FCC User Information
Statement according to FCC part 15.19:
This device complies with Part 15 of the FCC Rules. Opera­tion is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
Statement according to FCC part 15.21:
Modifications not expressly approved by this company could void the user's authority to operate the equipment.
RF exposure mobil:
The internal / external antennas used for this mobile transmit­ter must provide a separation distance of at least 20 cm from all persons and must not be co-located or operating in con­junction with any other antenna or transmitter."
Statement according to FCC part 15.105:
This equipment has been tested and found to comply with the limits for a Class A and Class B digit al devi ce, pursuan t to Part 15 of the FCC Rules. These limits are designed to provide
notices instruct you to do so. In aircraft, use of any radio fre­quency devices must be in accordance with applicable regula­tions. Hospitals or health care facilities may be using equipment that is sensitive to external RF energy.
With medical devices, maintain a minimum separation of 15 cm (6 inches) between pacemakers and wireless devices and some wireless radios may interfere with some hearing aids. If other personal medical devices are being used in the vicinity of wireless devices, ensure that the device has been ade­quately shielded from RF energy. In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures.
CAUTION! Electrostatic Sensitive Device. Pre­caution should be used when handling the device in order to prevent permanent damage.
reasonable protection against harmful interference in a resi­dential installation and against harmful interference when the equipment is operated in a commercial environment.
This equipment generates, uses, and can radiate radio fre­quency energy and, if not installed and used in accordance with the instructions as provided in the user manual, may cause harmful interference to radio communications. How­ever, there is no guarantee that interference will not occur in a particular installation. Operation of this equipment in a resi­dential area is likely to cause harmful interference in which case the user will be required to correct the interference at his or her own expense.
If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
Reorient or relocate the receiving antenna.
Increase the separation between the equipment and receiver.
Connect the equipment into an outlet on a circuit different from that to connected.
Consult the dealer or an experienced technician for help.
Page ii NA-08-0000-0034-1.01 © 2008 Nanotron Technologies GmbH.
EN Wireless Temperature Sensor DK 7320.505
Wireless Humidity Sensor DK 7320.515 Wireless Access Sensor DK 7320.535 Wireless Digital Input Sensor DK 7320.585 Wireless Measuring System (Performance) Sensor DK 7320.242
Assembly, Installation and Operation
US Representative
Rittal Corporation
One Rittal Place
Springfield, OH 45504
Telefon: +1(937)399 05 00
Fax: +1(937)390 55 99
eMail: rittal@rittal-corp.com
Website: www.rittal-corp.com
Published: 18/04/2008
Microsoft Windows is a registered trademark of Microsoft Corporation.
Acrobat Reader is a registered trademark of Adobe Systems Incorporated.
A37 627 09 IT 74
Table of Contents
1 Documentation Notes .......................2
1.1 Associated Documents ....................... 2
1.2 Retention of the Documents................ 2
1.3 Used Symbols ..................................... 2
2 Safety Notes....................................... 2
3 Unit Description................................. 3
3.1 Housing ............................................... 3
3.2 Register Wireless Sensor with Wireless
I/O-Unit ................................................ 4
3.2.1 Additional Digital Input ........................ 4
3.2.2 Additional Wireless Measuring System
Sensor ................................................. 5
3.3 Switch Off Wireless Sensor and Reset
to Factory Settings ..............................6
3.4 Functions and Settings on the PUII
Web Page............................................ 6
3.4.1 General Overview (Status Window).... 6
3.4.2 Sensor Overview (Status Window) ..... 6
3.4.3 General View (Sensor Configuration) . 7
1 Documentation Notes
The audience for this guide is the technical special­ists familiar with the assembly, installation and op­eration of the wireless sensors.
You should read this operating guide prior to the commissioning and store the guide so it is readily accessible for subsequent use.
Rittal cannot accept any liability for damage and operational malfunctions that result from the non­observance of this guide.
1.1 Associated Documents
The guides for other CMC-TC components and their safety notes also apply together with this guide.
1.2 Retention of the Documents
This guide and all associated documents are part of the product. They must be given to the operator of the unit and must be stored so they are available when needed.
1.3 Used Symbols
The following safety and other notes are used in this guide:
4 Accessories .......................................8
4.1 Required Accessories .........................8
4.2 Optional Accessories ..........................8
5 Proper Use .........................................8
6 Assembly ...........................................8
6.1 Assembly Notes ..................................8
6.2 Sensor Housing Installation ................8
6.3 Notes for the Installation of the Access
Sensor 7320.535................................. 9
7 Maintenance and Cleaning ...............9
7.1 Cleaning .............................................. 9
8 Storage and Disposal........................9
8.1 Storage................................................ 9
8.2 Disposal............................................... 9
9 Customer Service.............................. 9
10 Technical Specifications................... 9
10.1 Temperature/Humidity and Access
Sensor ................................................. 9
10.2 Digital Input and Measuring System
Sensor ............................................... 10
10.3 Measuring/Lifecheck Cycles .............11
11 Declarations of Conformity ............11
Symbol for a handling instruction:
This bullet point indicates that you should perform an action.
Safety and other notes:
Danger! Immediate danger to health and life!
Warning! Possible danger for the product and the environment!
Note!
Useful information and special features.
2 Safety Notes
Observe the subsequent general safety notes for the installation and operation of the unit:
Assembly and installation of the wireless sensor, in particular for wiring the enclosures with mains power, may be performed only by a trained electri­cian. Other tasks associated with the wireless sen­sor, such as the assembly and installation of system components with tested standard connectors, and the operation and configuration of the wireless sen­sor may be performed only by instructed personnel.
Observe the valid regulations for the electrical instal­lation for the country in which the unit is installed and operated, and the national regulations for acci-
dent prevention. Also observe any company-internal regulations (work, operating and safety regulations).
Use only genuine or recommended parts and ac­cessories. The use of other parts can void the liabil­ity for any resulting consequences.
Do not make any changes to the wireless sensor that are not described in this guide or in the associ­ated guides.
Do not make any changes to the system compo­nents that are not described in this guide or in the associated guides.
The operational safety of the unit is guaranteed only for its approved use. The limit values stated in the technical specifications may not be exceeded under any circumstances. In particular, this applies to the permitted ambient temperature range and to the permitted IP protection category. When used with a higher required IP protection category, the wireless sensor must be installed in a housing or enclosure with a higher IP protection category. The IP protec­tive cover can also be used.
The operation of the wireless sensor in direct con­tact with water, aggressive materials or inflammable gases and vapours is prohibited.
In addition to these general safety notes, also ob­serve any special safety notes listed for the specific tasks in the individual sections.
Danger! The sensor contains a battery and consequently may never come in con­tact with fire! Explosion danger!
3 Unit Description
The wireless sensors can be used for monitoring the temperature (7320.505),
humidity (7320.515), access (7320.535), external signals 10-30 V DC (7320.585) and wireless connection quality (7320.242). Up to 16 wireless sensors can be connected to a
Wireless I/O-Unit. The temperature and humidity sensor is mounted behind a protective membrane. The temperature sensor or the humidity sensor send a signal every 60 seconds and 120 seconds, re­spectively. The access sensor and the digital input send a message when a status change occurs. The wireless measuring system has a digital display with a display range 0 to 9. The value of the display pro­vides information about the wireless connection quality. The wireless measuring system has the same design as the wireless sensor. This allows the measuring system to be installed instead of the sensors to evaluate the wireless con-nection quality. A measuring system must be available for commis­sioning the wireless sensor network. After the com-
missioning, the measuring system can also be used for other installations.
All sensors contain a long-life 3.6 V lithium primary cell that can be replaced if necessary.
The sensors are installed using the supplied at­tachment bracket, which, for example, can be fas­tened to the enclosure frame. The sensors are sim­ply plugged onto this bracket. If a higher IP degree of protection is required, the sensors (tempera­ture/humidity/access) can be simply upgraded with the IP protective cover.
The battery and the wireless connection quality of the sensors are monitored.
3.1 Housing
The wireless sensor is located in its own housing.
Explanation of the key and LED:
1 2 3
Fig. 1 Wireless sensor operator panel
Key
1 LED for the status display for reset and learn mode
- briefly flashing once: Wireless connection check OK or registration successful
- flashing three times: Wireless connection check not OK or registration not successful
- flashing quickly: Switch off operation.
- flashing once (long): switched between NC to NO (only
digital input sensor)
2 2-pole connection socket, only digital input.
3 Control key for the programming mode and reset.
4 5 6 7 8
Fig. 2 Wireless sensor from above
4 Housing screws for replacing the 3.6 V lithium
primary cell.
Note!
Please consult the operating manual for the Rittal replacement battery.
The wireless sensor must be placed near the Wire­less I/O-Unit.
If a repeater is used, the sensor must still be first registered directly with the Base Unit!
The control key, see Figure 1 (3), on the wireless sensor must be pressed 1 second to place the sys­tem in registration mode.
If the LED of the sensor flashes once briefly, the registration was successful.
If the LED of the sensor flashes briefly three times successively, the registration was not successful and must be repeated. The sensor switches itself off automatically.
If the registration was successful, the sensor can be used with the Wireless I/O-Unit and the Processing Unit II.
If the sensor has been already used with a different I/O-Unit, he has to be resetted first (see Chapter
3.3)
Note!
For details of the registration, refer to the operating manuals for the Wireless I/O­Unit and the Processing Unit II.
Danger! Immediate danger to health and life! Only genuine Rittal spare parts may be used.
5 System designation The label contains the infor-
mation about the model number and the sensor icon.
6 Membrane The probe for the temperature or the
humidity sensor is located behind the membrane. The membrane should not be touched, it could be damaged.
7 The access sensor is operated using Hall sensors
and must be fastened together with the permanent magnet included in the package in accordance with the installation guide.
8 The LED display of the measuring system shows
the digits 0 to 9. 0 indicates no signal received, whereas 9 indicates that the best signal is received.
3.2 Register Wireless Sensor with Wireless I/O-Unit
Before the sensor can be installed and used, it must be connected to a Wireless I/O-Unit. This requires that the Wireless I/O-Unit is placed in programming mode (Press the "C" key for three seconds).
Note!
Refer to the Wireless I/O-Unit 7320.240 operating manual for details.
3.2.1 Additional Digital Input
Normally Closed (NC)
The digital input 7320.585 has the "Normally Closed" (NC) function in its delivered state.
"OK" will be signalled for the NC function when a voltage between 10 V and 30 V is present at the terminal, see Figure 1 (2). If no voltage is present at the terminal, see Figure 1 (2), the system will signal "Alarm".
Normally Open (NO)
If the digital input 7320.585 is to be operated in the NO mode, the sensor must be reprogrammed. The key on the wireless sensor, see Figure 1 (3), must be pressed for two seconds. This changes the func­tion. The change is represented as a sensor change in the Wireless I/O-Unit and must be acknowledged on the Processing Unit II.
An alarm will be signalled for the NO function when a voltage between 10 V and 30 V is present at the terminal, see Figure 1 (2).
If no voltage is present at the terminal, Figure 1 (2), the system signals "OK".
A new change of the function requires that the de­scribed process is repeated.
Terminals for signal input 10 to 30 V DC
1 2
Fig. 3 Digital input terminal
2. Alarm begins during the malfunction: The PUII signals the alarm only after the next Lifecheck.
3. Complete, terminated alarm process during the malfunction: The malfunction will be in­dicated on the PUII after the next Lifecheck by an entry being made in the alarm log.
4. Two or more complete, terminated alarms during the malfunction: One (!) alarm will be signalled on the PUII after the next Life­check.
1 The + pole of the external 10 to 30 V DC sig-
nal must be connected to this terminal.
2 The earth (Gnd) of the external 10 to 30 V DC
signal must be connected to this terminal.
The externally monitored system must provide the 10 to 30 V DC voltage.
Warning! The safety of the appliance is only given if the external circuit connected to the digital input sensor is protected against exceeding currents >2A by adequate external means.
If only a potential-free contact is available, the Rittal 24 V DC power pack 7320.425 can also be used for the voltage signal.
Circuit diagram for the use of a potential-free contact with a 24 V power pack
NO: open = OK
NC: closed = OK
3.2.2 Additional Wireless Measuring Sys­tem Sensor
The wireless measuring system has a digital display with a display range 0 to 9. The value of the display provides information about the wireless connection quality. The wireless measuring system has the same design as the wireless sensor. This allows the measuring system to be installed instead of the sensors to evaluate the wireless con-nection quality.
A measuring system must be available for commis­sioning the wireless sensor network. After the com­missioning, the measuring system can also be used for additional installations, for example, for exten­sions or changes. The wireless measuring system is registered once and then reused afterwards with the Wireless I/O-Unit or it is registered with a different wireless sensor network. The latter requires that the wireless measuring system sensor is switched off (see Section 3.3) and re-registered with a new Wire­less I/O-Unit. The measuring system is trained with the Wireless I/O-Unit like a normal sensor. The re­sult can be seen on the sensor display, see Figure 2 (8).
Operation of the measuring system once it has been trained with the Wireless I/O-Unit:
+24V DC
Gnd
Fig. 4 Circuit diagram for the digital input
+24V DC
Gnd
Alarm output behaviour for a wireless malfunc­tion
If a short-term wireless malfunction occurs between the Digital Input Sensor and the Wireless I/O-Unit, alarms or alarm changes will be represented in the alarm log as follows.
1. Alarm will be ended during the wireless mal­function: The alarm will be indicated on the PUII until the next Lifecheck.
1. Press the key, see Figure 1 (3), 1 second
-> the most recent measurement result is displayed
-> the number 1 flashes in the display
2. Press the key, see Figure 1 (3), several times to select the digits 1 to 5
- Digit 1 selected = measuring cycle duration 1 min­ute
- Digit 2 selected = measuring cycle duration 5 min­utes
- Digit 3 selected = measuring cycle duration 10 minutes
- Digit 4 selected = measuring cycle duration 1 hour
- Digit 5 selected = measuring cycle duration 10 hours
-> The measurement begins after 30 seconds.
-> The flashing of the point in the display signals that a test package is being received.
-> The measurement result is displayed at the end of the measurement cycle. The LED display of the measuring system shows the digits 0 to 9. This corresponds to a percentage value of 0 to 100% sent packages received from the Wireless I/O-Unit. 0 indicates no signal received, whereas 9 indicates that the best signal is received. A detailed coding of the display values is contained in Table Tab. 1.
-> After a measurement, the measuring system switches itself off automatically.
-> If the wireless measuring system sensor has been switched off for a longer period of time or has been used for a different I/O-Unit in the meantime, the sensor must be retrained.
Display Successful
received packages [%]
9 100 OK
8 99-98 OK
7 97-96 conditionally suitable, repeater
6 95-94 conditionally suitable, repeater
5 93-92 conditionally suitable, repeater
4 91-90 conditionally suitable, repeater
3 89-80 not suitable
2 79-50 not suitable
1 49-25 not suitable
0 <25 not suitable
Tab. 1 Measured value display - > receiving quality
assignment
Evaluation
necessary
necessary
necessary
necessary
3.4 Functions and Settings on the PUII Web Page
3.4.1 General Overview (Status Window)
1 2
3
Fig. 5 Overview display browser window
Key
1 Overview display.
2 Status of the I/O-Unit: The status of all wireless
sensors of the I/O-Unit is summarised. The most critical status is always displayed
"No Alarm" = All sensors are OK
"Warning" = At least one sensor has issued a warning
"Alarm" = At least one sensor has issued an alarm
"Error" = The sensor is out of range or does not have connection with the Wireless I/O-Unit.
3 Clear button: Acknowledge events.
Click the Clear button to acknowledge configuration changes of all connected sensors. Refresh button: All sensors are refreshed. This causes the CMC-TC PU to be re-queried and the Web page rebuilt.
3.4.2 Sensor Overview (Status Window)
1
3.3 Switch Off Wireless Sensor and Reset to Factory Settings
To reset a wireless sensor to its factory settings, the key, see Figure 1 (3), on the wireless sensor must be pressed continually for five seconds until the sensor LED flashes continually. The key can then be released.
This switches off the wireless sensor and restores the factory settings so the wireless sensor can be used for a new setup on a Wireless I/O-Unit.
2 3
Fig. 6 Sensors overview
Key
1 Sensors of the PUII unit, up to 16 wireless sensors
are grouped here.
2 Clear button: Acknowledge events.
Click the Clear button to acknowledge configuration changes of all connected sensors. Refresh button: All sensors are refreshed. This causes the CMC-TC PU to be re-queried and the Web page rebuilt.
3 Status line: The status of all wireless sensors of the
PUII is summarised. The most critical status is al­ways displayed.
"OK" = All sensors are OK
4
"Warning" = At least one sensor has issued a warning
"Alarm" = At least one sensor has issued an alarm
"Error" = The sensor is out of range or does not have
connection with the Wireless I/O-Unit.
Note!
For details, please refer to the operating manuals for the Wireless I/O-Unit and the Processing Unit II.
3.4.3 General View (Sensor Configura­tion)
You can individually set the attached sensors. Be­cause the structure of the configuration overview is generally always identical, it is shown here as an example.
To reach this page, click the sensor name directly.
1 2
3
5 6 7
8
9
Fig. 7 Configuring the sensor – overview
Key
1 Sensor connection number.
2 Connected sensor type.
3 Current status of the connected sensor.
4 The battery status
"red": The battery must be replaced
"green": The battery is operational.
5 This message text will also be transferred when a
status change is sent and serves as information for the recipient of the message to identify the sensor. You can delete the specified text and add your own message text (e.g. TempSensorRack1).
6 The highest upper temperature/humidity limit, which,
when exceeded, causes an alarm message to be is­sued (only for temperature and humidity sensors).
7 Mean temperature/humidity limit, which, when ex-
ceeded, causes a warning message to be issued (only for temperature and humidity sensors).
8 The lowest lower temperature/humidity limit, which,
when undershot, causes an alarm message to be issued (only for temperature and humidity sensors).
9 The "Info" button is used to reach the information
menu of the sensor.
tool icon or click the
1
2 3
4 5 6
7 8 9 10 11
12
Fig. 8 Information for the Wireless Sensor
The information menu is reached using the Info button, see Fig. 7, item 9
Key
1 Sensor connection number.
2 Connected sensor type.
3 Current status of the connected sensor.
4 Signal quality, the wireless connection from the
sensor to the Wireless I/O-Unit is displayed as a percentage value.
0-49% = red = inadequate signal quality
50-79% = orange = critical signal quality
80-100% = green = adequate signal quality
5 Information: "Message text" for the sensor.
6 Information: Serial number of the sensor.
7 Information: Software version of the sensor.
8 Information: The number of data packages of this
sensor that have been received by the I/O-Unit since the commissioning of the sensor or since the last re­start of the Wireless I/O-Unit.
9 Information: The time separation of the data pack-
ages to the measured values.
10 Information: The time interval with which the con-
nection from the wireless sensor to the Wireless I/O­Unit is checked.
11 Information of the hoplist; the information route via
existing repeaters is displayed.
1st position: Sensor connection number
2nd -10th position: The repeater number in accor-
dance with the connection sequence. The route with the best connection quality is chosen automatically. The repeaters can be registered as sensors and so receive a number. They are listed in connection se­quence until the hoplist ends with the "0". The free numbers are filled with zeros. The digit "0" is always the Wireless I/O-Unit connected as central system to the Processing Unit II.
12 The Remove Sensor button can be used to remove
the current sensor from the I/O-Unit.
Note
The communications timing between the I/O-Unit and the sensor can require that Remove Sensor must be clicked several times before the remove com­mand is accepted.
4 Accessories
4.1 Required Accessories
The operation of the sensor always requires a Wire­less I/O-Unit, a Processing Unit II and a measuring system sensor with the appropriate connection ac­cessories.
Note!
For details, please refer to the operating manuals for the Wireless I/O-Unit and the Processing Unit II.
4.2 Optional Accessories
Accessories
IP protective cover
Tab. 2 Optional accessories
The protective cover 7320.245 can be used option­ally for the following sensors:
- temperature (7320.505)
- humidity (7320.515)
- access (7320.535) This increases the protection category of the sen-
sors from IP40 to IP54.
Required num­ber of items
1 DK 7320.245
Model No.
This cover provides dampness protection and im­proves protection against dust. Consider the permit­ted ambient temperature and humidity operational areas and the application-related required IP degree of protection.
6.2 Sensor Housing Installation
The attachment bracket included in the package is fastened to the enclosure frame using the included T25-Torx screws.
Fig. 9 Installation of the attachment bracket
To fasten the sensor, simply push it onto the at­tachment bracket.
5 Proper Use
The Rittal Wireless sensors are used to monitor the temperature (7320.505), the humidity (7320.515), access (7320.535),10-30 V DC signal as digital input (7320.585).
A use different from that described here is consid­ered to be an improper use. Rittal cannot accept any liability for damage resulting from the improper use or the non-observance of this guide. The guides for the used accessories may apply.
6 Assembly
6.1 Assembly Notes
Install the wireless sensor in an enclosure or in a suitable housing system so that it also has addi­tional protection from external effects. The sensor can also be equipped with the IP protective cover.
Fig. 10 Attaching the sensor to the attachment bracket
As an alternative to the screwed connection, the sensor can also be attached using the provided adhesive strips.
Note!
In this case, the surfaces to be glued must be cleaned using a cleaning cloth and an alcohol-based cleaning solution. To ensure a long-lasting adhesive con­nection, the cleaned surface and the ad­hesive surface may no longer be touched after the cleaning and before use of the adhesive strip.
6.3 Notes for the Installation of the Ac­cess Sensor 7320.535
For the installation of the access sensor, the pack­age contains a separate installation drawing that shows the installation of the sensor and of the mag­net in the various Rittal housings.
Note!
For the installation of the access sensor
7320.535, with closed door, the magnet must be positioned centrally on the sen­sor.
Note!
For the installation of the access sensor
7320.535 with the magnet, the function must be tested after the installation.
7.1 Cleaning
Warning!
Danger of damage! Do not use any aggressive sub­stances, such as white spirit, acid, etc., for cleaning because such sub­stances can damage the unit.
Use a slightly moistened soft cloth to clean the housing.
8 Storage and Disposal
8.1 Storage
If the device is not used over an extended period of time, we recommend that the device is reset to set it into the initial state.
Further information concerning the operating condi­tions is contained in the technical specifications.
8.2 Disposal
Because the wireless sensor contains a battery, the system must be given for disposal to a hazardous waste site. The country-specific regulations for dis­posal of the battery must be observed.
9 Customer Service
If you have any technical questions or questions concerning our product spectrum, contact the follow­ing service address:
7 Maintenance and Cleaning
The Rittal Wireless Sensor may only be opened to replace the battery. Only genuine Rittal batteries may be used. For the replacement, the removal of four screws shown in Figure 2 item 4 allows the cover to be separated from the housing. The circuit board must be removed to give access to the bat­tery plug connector. Ensure that the correct polarity is maintained when the battery is replaced. After it has been replaced, the housing with the seals must be closed securely.
Note!
The housing may only be opened in ac­cordance with the operating manual for the Rittal replacement battery.
For the replacement action, the service technician must be earthed with an earthing strap.
Tel.: +49 (0)2772/505-1855 http://www.rimatrix5.com eMail: info@rittal.de
Note!
To allow us to process your enquiry quickly and correctly, please always specify the article number in the subject line for e-mails.
Further information and the current operating manu­als can be downloaded from "Security" at www.rimatrix5.com
10 Technical Specifications
10.1 Temperature/Humidity and Access Sensor
Designation 7320.505/.515/.535
Housing
Housing type Plastic
Height 90 mm
ISM band 2.4 GHz to 2.48 GHz
Width 30 mm
Depth 30 mm
Protection category
Increased protection category through the use of an IP protective cover only for:
7320.505
7320.515
7320.535
Operational area / conditions
Temperature -25 to +65 °C
Humidity 10-90% rel. humidity
Storage tem­perature
Rated voltage 3.6 V DC
IP 40 to EN 60529
IP 54 to EN 60529
-25 to +65 °C
Regulation (CE)
Technical Specifications
R&TTE 1999/5/EG
10.2 Digital Input and Measuring System Sensor
Designation 7320.585/242
Housing
Housing type Plastic
Height 90 mm
Width 30 mm
Depth 30 mm
Protection category IP 40 to EN 60529
Operational area / conditions
Temperature +5 to +45 °C
Humidity 10-90% rel. humidity
Storage tempera­ture
-25 to +65 °C
Do not operate the sensor in direct
contact with water/rain.
Do not operate the sensor when
subjected to direct sunlight.
Measuring tolerance
Temperature sensor
Humidity sensor tolerances at 20 °C
Lithium primary cell
Rated volt­age
Operational lifetime at –5°C to +25°C
Wireless technology
+/- 3 °K
+/- 3% rel. humidity for the range 20-80% rel. humidity
+/- 4% rh for the range 10-20% rh
+/- 4% rel. humidity for the range 80-90% rel. humidity
3.6 V DC
Up to 5 years. The operational lifetime of
an access sensor de­pends on its frequency of activation.
Rated voltage 3.6 V DC
Do not operate the sensor in direct
contact with water/rain.
Do not operate the sensor when sub-
jected to direct sunlight.
Lithium primary cell
Rated voltage 3.6 V DC
Operational lifetime Digital input at
+5 °C to +25 °C
Operational lifetime Measuring system
sensor at +5 °C to +25 °C
Wireless technology
Technology Chirp
ISM band 2.4 GHz to 2.48 GHz
Regulation (CE)
Technical Specifications
Up to 5 years. The operational life-
time depends on the frequency of activa­tion.
Depends on the fre­quency of use
R&TTE 1999/5/EU
Technology Chirp
10.3 Measuring/Lifecheck Cycles
Measuring cycles
Temperature sensor 60 seconds
Humidity sensor 120 seconds
Measuring cycles of the sensors
Lifecheck
Temperature sensor 300 seconds
Humidity sensor 300 seconds
Access sensor 120 seconds
Digital input sensor 120 seconds
Lifecheck cycles of the sensors
11 Declarations of Conformity
This device satisfies the requirements of the follow­ing EU regulation:
1999/5/EU
In France, the operation is only permitted indoors.
Certification
This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
Regulation for wireless systems and telecommunications terminals and the mutual recognition of their confor­mance
Hereby Rittal declares, that CMC Wireless I/O-Unit and CMC Wireless sensor is in compliance with essential requirements and other relevant provisions of Directive 1999/5/EC.
Statement according to FCC part 15.105:
Note: This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equip­ment generates, uses, and can radiate radio fre­quency energy and, if not installed and used in ac­cordance with the instruction manual, may cause harmful interference to radio communications. Op­eration of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense.
Statement according to FCC part 15.105:
NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installa­tion. This equipment generates, uses and can radi­ate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. How­ever, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or televi­sion reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
. Reorient or relocate the receiving antenna. . Increase the separation between the equipment
and receiver. . Connect the equipment into an outlet on a circuit
different from that to which the receiver is con­nected.
. Consult the dealer or an experienced radio/TV technician for help.
FCC ID: SIFCMCSENS0108V2
Statement according to FCC part 15.21:
Modifications not expressly approved by this com­pany could void the user's authority to operate the equipment.
Revision History
Version Date Description/Changes
1.01 2008-04-17 Initial version.
Revision History
CMC-TC SD (UserMan)
© 2008 Nanotron Technologies GmbH. NA-08-0000-0034-1.01 Page 12
About Nanotron Technologies GmbH
CMC-TC SD (UserMan)
About Nanotron Technologies GmbH
Nanotron Technologies GmbH develops world-class wireless products for demanding applications ba sed on its patented Chirp transmission system - an innovation that guarantees high robustness, optimal use of the available bandwidth, and low energy consumption. Since the beginning of 2005, Nanotron's Chirp tech­nology has been a part of the IEEE 802.15.4a draft standard for wireless PANs which require extremely robust communication and low power consumption.
ICs and RF modules include nanoNET TRX Transceiver, nanoLOC TRX Transceiver, and ready-to-use or custom wireless solutions. These include, but are not limited to, industrial monitoring and control applica­tions, medical applications (Active RFID), security applications, and Real Time Location Systems (RTLS). nanoNET is certified in Europe, United States, and Japan and supplied to customers worldwide.
Headquartered in Berlin, Germany, Nanotron Technologies GmbH was founded in 1991 and is an active member of IEEE and the ZigBee alliance.
Further Information
For more information about this product and other products from Nanotron Technologies, contact a sales representative at the following address:
Nanotron Technologies GmbH Alt-Moabit 60 10555 Berlin, Germany Phone: +49 30 399 954 - 0 Fax: +49 30 399 954 - 188 Email: sales@nanotron.com Internet: www.nanotron.com
Page 13 NA-08-0000-0034-1.01 © 2008 Nanotron Technologies GmbH.
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