Computime CTL2607 ZigBee-Ready RF Transceiver User Manual CTL2607 Product Specifications R1

Computime Ltd. ZigBee-Ready RF Transceiver CTL2607 Product Specifications R1

User manual

Copyright © 2011 Computime Limited. All rights reserved.                                                       Rev. 2 ZigBee- Ready SoC RF Transceiver Modules  CTL2607 The reproduction of this datasheet is NOT allowed without approval of Computime Limited.  All information and data contained in this datasheet are subject to change without notice. This publication supersedes and replaces all information previously supplied. Computime has no responsibility to the consequence of using the information described in this document.
ZigBee- Ready SoC RF Transceiver Modules CTL2607 Copyright © 2011 Computime Limited. All rights reserved.                                                       Rev. 2 Page 1 Table of Contents 1. General Description ...................................................................................................................................... 22. Applications .................................................................................................................................................. 23. Features ....................................................................................................................................................... 24. Absolute Maximum Ratings .......................................................................................................................... 35. Recommended Operating Conditions .......................................................................................................... 36. Electrical Specifications  ................................................................................................................................ 47. Pin Assignment ............................................................................................................................................. 58. Pin Description ............................................................................................................................................. 59. Block Diagram .............................................................................................................................................. 710. Circuit Description ........................................................................................................................................ 711. SIF Module Programming and Debug Interface ........................................................................................... 812. Power Management ..................................................................................................................................... 813. RF Frequency Detail..................................................................................................................................... 914. Antenna Design Considerations ................................................................................................................. 1015.  PCB Layout Recommendations ................................................................................................................. 1116.  Product Approvals ...................................................................................................................................... 1217. Typical application block ............................................................................................................................ 1518.  Mechanical Dimensions .............................................................................................................................. 1519.  Ordering Information ................................................................................................................................... 1720.  Moisture Sensitivity Level (MSL) ................................................................................................................ 1721.  Document Revision History ........................................................................................................................ 17
ZigBee- Ready SoC RF Transceiver Modules CTL2607 Copyright © 2011 Computime Limited. All rights reserved.                                                       Rev. 2 Page 2 1. General DescriptionThe CTL2607 RF Transceiver Modules is compact surface mounted modules specially designed for Ember ZigBee™ protocol stack for wireless networks, EmberZNet, based on IEEE 802.15.4 standard in the 2.4GHz world-wide ISM band. The complete module is only 32.4 x 25.4 x 4.1mm  .They both integrate a 2.4GHz, IEEE 802.15.4-compliant transceiver with a 16-bit network processor (XAP2b core) to run EmberZNet. They contain embedded Flash and integrated RAM for program and data storage.  It utilizes the non-intrusive SIF module for powerful software debugging and programming of the network processor. The CTL2607 modules are specially designed for ZigBee application. They provide a fast jump start design for system integrators or electronic designers wishing to use ZigBee wireless technologies. The module contains qualified RF hardware and enough processor power to run the EmberZNet stack or other ZigBee network stack (depending on version), making it a powerful platform for building wireless networking products. ZigBee Coordinators (ZC), ZigBee Routers (ZR), and ZigBee End Devices (ZED) are all supported and are programmed onto the module together with a custom application. Minimal RF design experience is need to use CTL2607 modules. 2. ApplicationsHome automation & building controlHome appliances & alarms Monitoring of remote systemsLighting controls Sensor data capturing 3. FeaturesComplete ZigBee-ready module with or without integrated chip antenna Integrated IEEE 802.15.4 PHY and MAC layer 12MHz XAP2b 16-bit network processor core Integrated FEM(Front-End Module) Non-intrusive debug interface (SIF)  SPI interface for communication and controlled by the Host using the EmberZNet Serial Protocol (EZSP) Internal RC oscillator for timer 16 channels in the 2.4 GHz ISM band On-chip regulator for 2.7-3.6V operation  , three sleep low power modesǂ-17dBm------20dBm output power, SW controlled -19+/-1dBm  ------  18+/-1dBm output power, SW controlled
ZigBee- Ready SoC RF Transceiver Modules CTL2607 Copyright © 2011 Computime Limited. All rights reserved.                                                       Rev. 2 Page 3 4. Absolute Maximum RatingsParameter  Test Conditions Min.  Max.  UnitRegulator voltage (VDD_PADS)   - 0.3  3.6   V  Voltage on nSSEL INT, MOSI, MISO, SCLK, nSSEL, PTI_EN, PTI_DATA, nHOST_INT, SIF_CLK, SIF_MISO, SIF_MOSI, nSIF_LOAD, SDBG, LINK_ACTIVITY, nWAKE, nRESET  - 0.3  VDD_PADS+0.3  V  Storage temperature   - 40  + 140   °C  Under no circumstances should the absolute maximum ratings given above be violated. Stress exceeding one or more of the limiting values may cause permanent damage to the device. 5. Recommended Operating ConditionsParameter  Test  Conditions  Min.  Typ.  Max.  UnitRegulator input voltage (VDD_PADS)   2.7  3.6   Temperature range   - 40   + 85   °C
ZigBee- Ready SoC RF Transceiver Modules CTL2607 Copyright © 2011 Computime Limited. All rights reserved.                                                       Rev. 2 Page 4 6. Electrical SpecificationsT=25ć, VCC = 3.0V, Fo =2450MHZ, if nothing else stated. Parameter   Min   Typ.   Max   Unit   Condition / Note  Operating frequency   2.4   2.5   GHz  Programmable in 5MHz  steps, 5 MHz steps for IEEE 802.15.4 compliance  Number of channels     16       For IEEE 802.15.4 compliance  Channel spacing     5     MHz   For IEEE 802.15.4 compliance  Input/output impedance     50     Ohm    Frequency stability       +/-40   ppm    Transmit power   -17    20  dBm   Programmable from firmware  Sensitivity     -98    dBm   PER = 1% PER, 20byte packet defined by IEEE 802.15.4 Boost mode Adjacent channel rejection  +/-5 MHz     35/35    dB   IEEE 802.15.4 compliance at -82 dBmAdjacent channel rejection +/-10 MHz     40/40     dB   IEEE 802.15.4 compliance at -82 dBmCo-channel rejection     -6  dB   Supply voltage   2.7     3.6   V    Current consumption,  RX mode   36    mA   Max RX sensitivity (normal mode)    38    mA   Max RX sensitivity (boost mode) Current consumption, TX mode  190   mA  Deep sleep current    5    ȝA Flash Memory    1    Kbit   2.405 2.480-19+/-1 18+/-1
ZigBee- Ready SoC RF Transceiver Modules CTL2607 Copyright © 2011 Computime Limited. All rights reserved.                                                       Rev. 2 Page 5 7. Pin AssignmentTOP VIEW 8. Pin DescriptionPin# Signal  Direction Description 1  SIF_CLK  I  Programming and debug interface, clock(internal pull down) 2  SIF_MISO  O  Programming and debug interface, master In/Slave Out 3  SIF_MOSI I 3URJUDPPLQJDQG'HEXJ,QWHUIDFH0DVWHU2XW6ODYH,QH[WHUQDOSXOOGRZQUHTXLUHGWRJXDUDQWHHVWDWHLQ'HHS6OHHS0RGH4  nSIF_LOAD I/O 3URJUDPPLQJDQG'HEXJ,QWHUIDFHORDGVWUREHRSHQFROOHFWRUZSXOOXS5  SDBG  O  Spare Debug Signal 6  LINK_ACTIVITY  O  Link and Activity signal 7  GROUND GND Ground 8  GROUND GND Ground 9  GROUND GND Ground 10  GROUND GND Ground 11  GROUND GND Ground 12  GROUND GND Ground 13  RX IDLE_EN  I   Enable the FEM in deep sleep mode , Active high. low level for RX enable
ZigBee- Ready SoC RF Transceiver Modules CTL2607 Copyright © 2011 Computime Limited. All rights reserved.                                                       Rev. 2 Page 6 Pin# Signal  Direction Description 14  GROUND GND  Ground 15  VBRD Power  Power Supply Input 16  nRESET  I  Active low chip reset(internal pull-up) 17  MOSI I 63,'DWD0DVWHU2XW6ODYH,QIURP+RVWWR(0N.C. I When using the UART interface, this signal is left not connected.18  MISO  O  SPI Data, Master In/Slave Out (from EM260 to host) N.C.  I  When using the UART interface, this signal is left not connected. 19  SCLK I SPI Clock  N.C.  I  When using the UART interface, this signal is left not connected. 20  NC NC NC  21  nRTS O UART Request To Send(enables host transmission)  When using the UART interface, this signal should be left unconnected if not used N.C.  I  When using the SPI interface, this signal is left not connected. 22 nSSEL_INT  I  SPI Slave Select interrupt(from Host to EM260) nCTS I UART Clear To Send(enables EM260 transmission) When using the UART interface, this signal should be left unconnected if not used. nSSEL  I  SPI Slave Select (from Host to EM260) N.C  I  When using the UART interface, this signal is left not connected . 23  PTI_EN  O  Frame signal of Packet Trace Interface(PTI) 24  PTI_DATA  O   Data signal of Packet Trace Interface(PTI) 25  TXD  O  UART Transmitted Date(from EM260 to Host) N.C.  I  When using the SPI interface, this signal is left not connected. 26  nHOST_INT  O  SPI Host Interrupt Signal (from EM260 to Host) RXD  I  UART Received Data(from Host to EM260) 27  nWAKE  I  SPI Wake Interrupt Signal (from Host to EM260) N.C.  I  When using the UART interface, this signal is left not connected. 28  GROUND GND Ground
ZigBee- Ready SoC RF Transceiver Modules CTL2607 Copyright © 2011 Computime Limited. All rights reserved.                                                       Rev. 2 Page 7 9.   Block Diagram  Block Diagram 10.   Circuit DescriptionThe module contains an IEEE 802.15.4 compliant RF transceiver, high speed oscillator, RC oscillator and RF FEM . The module is intended to running the Ember ZigBee software or other ZigBee network implementation, depending on the specific version. The application software together with the ZigBee protocol software stack can be programmed in Flash memory through SIF module, using an evaluation board from Ember InSight Desktop. To support user-defined applications, the module exposes the Ember Serial API over the SPI, which allows application development to occur on a Host microcontroller of choice. In addition to the four SPI signals, two additional signals, nHOST_INT and nWAKE, provide an easy-to-use handshake mechanism between the Host and the module. Also, an integrated voltage regulator, power-on-reset circuitry, sleep timer, and low-power sleep modes are available. The deep sleep mode draws less than 5ȝA allowing products to achieve long battery life. For further details on the transceiver (Ember EM260), please consult data sheet at http://www.ember.comRout   to  HOST  16 Bit Network ProcessorUser Application ZigbeeTMNetwork IEEE 802.15.4 MACIEEE 802.15.4 RF Transceiver 2.7 – 3.6V RF FEM
ZigBee- Ready SoC RF Transceiver Modules CTL2607 Copyright © 2011 Computime Limited. All rights reserved.                                                       Rev. 2 Page 8 11.   SIF Module Programming and Debug InterfaceSIF is a synchronous serial interface developed by Cambridge Consultants Ltd. It is the primary programming and debug interface of the CTL2607. The SIF module allows external devices to read and write memory-mapped registers in real-time without changing the functionality or timing of the XAP2b core.  The SIF interface provides the following:  IC production test (especially analog) PCB production test  Firmware download  Product control and characterization  The pins are:  SIF_LOADB SIF_CLK SIF_MOSI SIF_MISO The maximum serial shift speed for the SIF interface is 48MHz. SIF interface accesses can be initiated even when the chip is in idle, deep sleep or power down modes. An edge on nSIF_LOAD wakes the chip to allow SIF cycles.  12.   Power ManagementThe module supports four different power modes: active, idle, deep sleep, and power down.  Active mode is the normal, operating state of the module. While in idle mode, code execution halts until any interrupt occurs. All modules including the radio continue to operate normally. The EmberZNet stack automatically invokes idle as appropriate.  Deep sleep mode and power down mode both power off most of the functions, including the radio, and leave only the critical chip functions powered. The internal regulator is disabled. All output signals are maintained in a frozen state. Upon waking from deep sleep or power down mode, the internal regulator is re_enabled. Deep sleep and power down result in the same sleep current consumption. The two sleep modes differ as follows: the module can wake on both an internal timer and an external signal from deep sleep mode; power down mode can only wake on an external signal.
ZigBee- Ready SoC RF Transceiver Modules CTL2607 Copyright © 2011 Computime Limited. All rights reserved.                                                       Rev. 2 Page 9 13.   RF Frequency DetailThe following table shows the RF channels as defined by the IEEE 802.15.4 standard. RF channel  Frequency 11 2405MHz 12 2410MHz 13 2415MHz 14 2420MHz 15 2425MHz 16 2430MHz 17 2435MHz 18 2440MHz 19 2445MHz 20 2450MHz 21 2455MHz 22 2460MHz 23 2465MHz 24 2470MHz 25 2475MHz 26 2480MHz The output power level of em250 can be configured in the range -32 to 4.5 dBm and the gain of FEM is 17dB, So the module output can controlled in range -15 to 20dBm. The RF transceiver uses direct sequence spread spectrum (DSSS) with 2 Mchip/s chip rate, giving a raw data rate of 250 kbit/s. The modulation format is Offset – Quadrature Phase Shift Keying (O-QPSK). It is robust even under noisy environments when sharing the same frequency band with other applications. Note: the output power of em260 should be configured lower than -15dBm for 2480M channel to Comply FCC The use of RF frequencies and maximum allowed RF power should according to different national regulations. The]CTL2607 is complying with the applicable regulations for the world wide 2.4GHz ISM band. [Subject to final approval: Specifically it complies with the European Union R&TTE directive meeting EN 300 328 and EN300 440 class 2. It also meets the FCC CFR47 Part15 regulations for use in the US and the ARIB T-66 for use in Japan.] -19dBm-20 to 19dBm
ZigBee- Ready SoC RF Transceiver Modules CTL2607 Copyright © 2011 Computime Limited. All rights reserved.                                                       Rev. 2 Page 10 14.   Antenna Design ConsiderationsThe CTL2607 module includes an integrated PCB trace antenna. An optional MMCX connector can be specified, enabling connection to a 50-ohm external antenna of the user’s choice..  The PCB antenna employs an F-Antenna topology that is compact and supports an omni-directional radiation pattern. To maximize antenna efficiency, an adequate ground plane must be provided on the host PCB. If positioned correctly, the ground plane on the host board under the module can contribute significantly to antenna performance.  The position of the module on the host board and overall design of the product enclosure contribute to antenna performance. Poor design effects radiation patterns and can result in reflection, diffraction, and/or scattering of the transmitted signal.  Here are some design guidelines to help ensure antenna performance: • Never place the ground plane or route copper traces directly underneath the antenna portion of the module. • Never place the antenna close to metallic objects. • In the overall design, ensure that wiring and other components are not placed near the antenna. • Do not place the antenna in a metallic or metallized plastic enclosure. • Keep plastic enclosures 1cm or more from the antenna in any direction
ZigBee- Ready SoC RF Transceiver Modules CTL2607 Copyright © 2011 Computime Limited. All rights reserved.                                                       Rev. 2 Page 11 15.  PCB Layout RecommendationsFor recommended layout pads for the module, please reference Mechanical Dimensions. The area underneath the module should be covered with solder resist in order to prevent short circuiting the test pads on the back side of the module. A solid ground plane is preferred. Unconnected pins should be soldered to the pads, and the pads should be left floating. For the module version with integrated antenna, the RF pad can be soldered, but the pad should not be connected further.  When using the onboard chip antenna, careful attention is required to the layout of the PCB where the module is mounted. In the following picture a mother PCB is shown with a recommended placement of the module.
ZigBee- Ready SoC RF Transceiver Modules CTL2607 Copyright © 2011 Computime Limited. All rights reserved.                                                       Rev. 2 Page 12                             A recommended placement of the module on a main PCB  16.  Product Approvals16.1FCC ApprovalsThe CTL2607 has been designed to meet all national regulations for World-wide use. Using the integrated antenna it conforms to FCC CFR 47 Part 15 (USA).  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.  The device CTL2607 carries FCC authorization and is marked with the FCC ID Number. Whilst any device into which this authorized module is installed will not normally be required to obtain FCC authorization, this does not preclude the possibility that some other form of authorization or testing may be required for the finished device.  When the CTL2607 module is integrated inside another device/product, then the outside surface of that device/product must display a label referring to the enclosed module. This exterior label can use wording such as  “Contains Transmitter Module FCC ID:DICTCTL2607”  or  “Contains FCC ID: DICTL2607”,although any similar wording that expresses the same meaning may be used. To meet the Section 15.209 emission requirements in the restricted frequency bands of Section 15.205, the transceiver transmitter power for the CTL2607 module needs to be reduced from the typical maximum setting on the upper  channels ( 2480 MHz). Maximum values are 0dBm ( Configured the output power of em260 lower than -15dBm). FCC statement˖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.
ZigBee- Ready SoC RF Transceiver Modules CTL2607 Copyright © 2011 Computime Limited. All rights reserved.                                                       Rev. 2 Page 13 Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment.
ZigBee- Ready SoC RF Transceiver Modules CTL2607 Copyright © 2011 Computime Limited. All rights reserved.                                                       Rev. 2 Page 14 16.2CE CertificateWith the integrated antenna the CTL2607 has been tested and conforms to the following standards:  • Radio: ETSI EN300 328 V1.6.1 • EMC: ETSI EN301 489-17 V1.2.1  • EMC: ETSI EN301 489-1 V1.6.1 • Safety: IEC/EN60950-1  If the CTL2607 module is incorporated into an OEM product, the OEM product manufacturer must ensure compliance of the final product to the European EMC, and low voltage/safety standards. A Declaration of Conformity must be issued for each of these standards and kept on file as described in the R&TTE Directive. The final product must not exceed the specified power ratings, as specified in this specification. If any of these specifications are exceeded in the final product then a submission must be made to a notified body for compliance testing to all of the required standards
ZigBee- Ready SoC RF Transceiver Modules CTL2607 Copyright © 2011 Computime Limited. All rights reserved.                                                       Rev. 2 Page 15 17. Typical application blockExample of application circuit 18.  Mechanical Dimensions Ember EM2602.7- 3.6V Debug and programminginterface HOST UPNREST PTI_EN PTI-DATA SIF_CLK SIF_MISO SIF_MOSI LINK_ACTIVITY   FEM NWAKE NHOST_INT NSSEL SCLK MISO
ZigBee- Ready SoC RF Transceiver Modules CTL2607 Copyright © 2011 Computime Limited. All rights reserved.                                                       Rev. 2 Page 16 Unit in mm˄˄˄˄Top View˅˅˅˅Recommended PCB layout(unit in mm)
ZigBee- Ready SoC RF Transceiver Modules CTL2607 Copyright © 2011 Computime Limited. All rights reserved.                                                       Rev. 2 Page 17 19.  Ordering InformationOrdering Part Number  Description CTL2607  ZigBee-ready RF module, 1kB Flash, PCB trace antenna, 20dBm Version FCC/CE certificate 20.  Moisture Sensitivity Level (MSL)MSL 3, per J-STD-033 21.  Document Revision HistoryDocument Revision  change 1.0  Draft 1.1  Add MSL
ZigBee- Ready SoC RF Transceiver Modules CTL2506 Copyright © 2011 Computime Limited. All rights reserved.                                                       Rev. 2 Contact informationCOMPUTIME CORPORATE HQ 17/F, Great Eagle Centre, 23 Harbour Road, Wanchai, Tel: +852.2260.0300 Fax: +852.2790.3996 e-mail: hq@computime.comCOMPUTIME NORTH AMERICA HQ, 4700 Duke Dr. Suite 200 Mason OH 45040 USA  Tel: +1(513).398.2579 Fax: +1(513).754.8955 e-mail: na@computime.com  CINCINNATI WIRELESS SOLUTIONS LTD4700 Duke Dr. Suite 200 Mason OH 45040 USA Tel: +1(513).754.8935 Fax: +1(513).754.8955 e-mail: ctws@computime.com COMPUTIME JAPAN3-18-9 Roppongi Minatoku, Tokyo 106-0032, Japan Tel: (03).3583.8411 Fax: (03).3583.3799 e-mail: cj@computime.com About ComputimeFounded in 1974, Computime is a global technology, brand and manufacturing company providing innovative automation and control solutions to customers in commercial, industrial and consumer markets. The Company provides technologies and products that save energy and make people's lives more productive and comfortable.
FCC Statement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.Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate theequipment.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:ͲͲReorientorrelocatethereceivingantenna.ͲͲIncreasetheseparationbetweentheequipmentandreceiver.ͲͲConnecttheequipmentintoanoutletonacircuitdifferentfromthattowhichthereceiverisconnected.ͲͲConsultthedealeroranexperiencedradio/TVtechnicianforhelp.FCCRadiationExposureStatement  Themodularcanbeinstalledorintegratedinmobileorfixdevicesonly.Thismodularcannotbeinstalledinanyportabledevice,forexample,USBdongleliketransmittersisforbidden.ThismodularcomplieswithFCCRFradiationexposurelimitssetforthforanuncontrolledenvironment.ThistransmittermustnotbecoͲlocatedoroperatinginconjunctionwithanyotherantennaortransmitter.Thismodularmustbeinstalledandoperatedwithaminimumdistanceof20cmbetweentheradiatoranduserbody.IftheFCCidentificationnumberisnotvisiblewhenthemoduleisinstalledinsideanotherdevice,thentheoutsideofthedeviceintowhichthemodule is installed must also display a label referring to the enclosed module. This exterior label can use wording such as the following:“ContainsTransmitterModuleFCCID:2AAUQͲCTLB357OrContainsFCCID:2AAUQͲCTLB357 āwhenthemoduleisinstalledinsideanotherdevice,theusermanualofthisdevicemustcontainbelowwarningstatements;1.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.(2)Thisdevicemustacceptanyinterferencereceived,includinginterferencethatmaycauseundesiredoperation.2. Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate theequipment.Thedevicesmustbeinstalledandusedinstrictaccordancewiththemanufacturer'sinstructionsasdescribedintheuserdocumentationthatcomeswiththeproduct“Contains Transmitter Module FCC ID: 2AAUQ-CTL2607 Or Contains FCC ID: 2AAUQ-CTL2607 ā
IC STATEMENT ThisdevicecomplieswithIndustryCanada’slicenceͲexemptRSSs.Operationissubjecttothefollowingtwoconditions: (1)Thisdevicemaynotcauseinterference;and (2)Thisdevicemustacceptanyinterference,includinginterferencethatmaycauseundesiredoperationofthedevice. CetappareilestconformeauxCNRexemptesdelicenced'IndustrieCanada.Sonfonctionnementestsoumisauxdeuxconditionssuivantes:(1)Cedispositifnepeutcauserd'interférences;et(2)Cedispositifdoitacceptertouteinterférence,ycomprislesinterférencesquipeuventcauserunmauvaisfonctionnementdel'appareil.ICRadiationExposureStatement  Themodularcanbeinstalledorintegratedinmobileorfixdevicesonly.Thismodularcannotbeinstalledinanyportabledevice,forexample,USBdongleliketransmittersisforbidden.ThismodularcomplieswithICRFradiationexposurelimitssetforthforanuncontrolledenvironment.ThistransmittermustnotbecoͲlocatedoroperatinginconjunctionwithanyotherantennaortransmitter.Thismodularmustbeinstalledandoperatedwithaminimumdistanceof20cmbetweentheradiatoranduserbody.Cettemodulairedoitêtreinstalléetutiliséàunedistanceminimumde20cmentreleradiateuretlecorpsdel'utilisateur.If the IC number is not visiblewhen the module is installed inside another device,then the outside of the device into which themodule isinstalledmustalsodisplayalabelreferringtotheenclosedmodule.Thisexteriorlabelcanusewordingsuchasthefollowing: “ContainsIC:1700DͲCTLB357āwhenthemoduleisinstalledinsideanotherdevice,theusermanualofthisdevicemustcontainbelowwarningstatements;1.ThisdevicecomplieswithIndustryCanada’slicenceͲexemptRSSs.Operationissubjecttothefollowingtwoconditions: (1)Thisdevicemaynotcauseinterference;and (2)Thisdevicemustacceptanyinterference,includinginterferencethatmaycauseundesiredoperationofthedevice.2.CetappareilestconformeauxCNRexemptesdelicenced'IndustrieCanada.Sonfonctionnementestsoumisauxdeuxconditionssuivantes:(1)Cedispositifnepeutcauserd'interférences;et(2)Cedispositifdoitacceptertouteinterférence,ycomprislesinterférencesquipeuventcauserunmauvaisfonctionnementdel'appareil.Thedevicesmustbeinstalledandusedinstrictaccordancewiththemanufacturer'sinstructionsasdescribedintheuserdocumentationthatcomeswiththeproduct“Contains IC:1700D-CTL2607ā

Navigation menu