JENNET-IP-EK040,59 NXP Semiconductors, JENNET-IP-EK040,59 Datasheet

Page 1

... JenNet-IP EK040 Evaluation Kit User Guide JN-UG-3089 Revision 1.2 9 November 2012 ...

Page 2

... JenNet-IP EK040 Evaluation Kit User Guide 2 © NXP Laboratories UK 2012 JN-UG-3089 v1.2 ...

Page 3

... Node Addresses 2.2 IP Concepts 2.2.1 IP Data Packets 2.2.2 IPv6 Addresses 2.2.3 IPv6 Address Components 2.3 JenNet-IP Software Stacks 2.3.1 JenNet-IP WPAN Stack 2.3.2 JenNet-IP LAN/WAN Stack 2.4 Data Message Handling 2.4.1 Sending and Receiving Messages 2.4.2 Passing Messages Through the Border-Router JN-UG-3089 v1.2 © NXP Laboratories UK 2012 JenNet-IP EK040 Evaluation Kit User Guide ...

Page 4

Contents 3. Smart Home Demonstration 3.1 Demo System Overview 3.1.1 Lighting Control from a PC 3.1.2 Lighting Control from the Remote Control Unit 3.1.3 Node States and MIBs 3.2 Setting Up the Demo System 3.2.1 Setting Up the LAN Part ...

Page 5

... C. Compliance Statements and Documentation C.1 FCC Statements and Documentation C.1.1 DR1128 FCC Documentation C.1.2 DR1159 FCC Documentation C.1.3 DR1174 FCC Documentation C.1.4 DR1175 FCC Documentation C.2 Industry Canada Statements C.3 CE Statements and Documentation JN-UG-3089 v1.2 © NXP Laboratories UK 2012 JenNet-IP EK040 Evaluation Kit User Guide ...

Page 6

Contents 6 © NXP Laboratories UK 2012 JN-UG-3089 v1.2 ...

Page 7

... About this Manual This manual provides a guide to setting up a wireless network with IP access, based on the NXP JenNet-IP EK040 Evaluation Kit. The manual also describes how to run the pre-loaded Smart Home demonstration, developed using the NXP JenNet-IP protocol and associated libraries. You should work through this manual before attempting to develop your own JenNet-IP control applications ...

Page 8

... JN-UG-3064 SDK Installation and User Guide JN-UG-3007 JN51xx Flash Programmer User Guide JN-AN-1162 JenNet-IP Smart Home Application Note Trademarks “JenNet”, “JenNet-IP” and the tree icon are trademarks of NXP B.V.. All trademarks are the property of their respective owners. 8 This is a Note. It highlights important additional information ...

Page 9

... Certification In order to use the JenNet-IP trademark and logo on a JenNet-IP product, the product must to be certified. This is to ensure that the product correctly supports the JenNet- IP protocol and that JenNet-IP products will interoperate with each other possible to use the JenNet-IP software stack on non-certified products but, in this case, the JenNet-IP trademark and logo cannot be displayed on the product ...

Page 10

About this Manual 10 © NXP Laboratories UK 2012 JN-UG-3089 v1.2 ...

Page 11

... IP connections. A particular feature of 6LoWPAN is that communications are packaged in IPv6 (Internet Protocol version 6) messages. JenNet- implementation of 6LoWPAN in which NXP’s JenNet protocol is used as the wireless network protocol in the system. Thus, JenNet is used as the wireless network layer of the 6LoWPAN stack, giving rise to the JenNet-IP stack (see 2.3). ...

Page 12

... office (which need not be on the same site) or from a mobile phone while travelling. In practice, a JenNet-IP system can incorporate multiple LANs (and their associated WPANs) connected together via a WAN (such as the Internet). 12 ...

Page 13

... Kit Contents In the JenNet-IP EK040 Evaluation Kit, you will find the following components (numbers refer to 1. Linksys Wireless-N Broadband Router (WRT160NL), with the following accessories:  12V DC power supply unit (universal type)  2 antennae with SMA connectors  RJ45 Ethernet cable  ...

Page 14

... The Remote Control Unit (part number: DR1159) is designed around the JN5148-J01 device and features a 16-button capacitive-touch keypad. The unit acts as a wireless node in a WPAN of a JenNet-IP system, allowing other member nodes to be controlled from within the WPAN. The unit has the following features:  ...

Page 15

... JN5142-J01 module with integrated PCB antenna Up to two of the modules with uFl connector can be replaced with the supplied JN5148 high-power modules (but they are not pre-programmed or needed for the JenNet-IP Smart Home demonstration). The supplied modules are described in Each carrier board has the following features (also refer to  ...

Page 16

Chapter 1 Introduction to the Evaluation Kit  On-board 32-kHz crystal oscillator (connected across DIO9 and DIO10 of module but not routed to Arduino-compatible header)  Reset button  User-input button (SW1 connected to DIO8 of module)  3 green ...

Page 17

... Arduino-compatible header.  The JN514x-based module which is pre-fitted to the module site has been pre- loaded with the JenNet-IP Smart Home demonstration.  An antenna aperture can accommodate one of the supplied push-through antennae and is for use with a module that uses a uFl antenna connection (see Section 1 ...

Page 18

Chapter 1 Introduction to the Evaluation Kit J4 J4 Figure 6: Regulator Selection (using Jumper J4) Low-Power Mode In low-power mode, the board is powered from 2 AAA batteries connected in the lower two battery holders (nearest to the 40-way ...

Page 19

... Connected to the 2-wire Serial Interface (I board, via DIO14 (clock) and DIO15 (data) on the module JN-UG-3089 v1.2 Figure 8 below shows a pre-assembled Section 1.3.3 and the modules are described in 2 © NXP Laboratories UK 2012 JenNet-IP EK040 Evaluation Kit User Guide Section 1.3.2). Figure 9 the module on the carrier 19 ...

Page 20

Chapter 1 Introduction to the Evaluation Kit  Humidity/temperature sensor (of the type SHT1x) connected to the module on the carrier board, via DIO12 (data) and DIO17 (clock) on the module  Light sensor (of the type TSL2550), connected to ...

Page 21

... Connect the free end of the fly lead to the uFL connector on the module. JN-UG-3089 v1.2 Note: The JN514x modules are pre-programmed with the JenNet-IP Smart Home demonstration, except the JN5148-J01 high-power modules which are not needed for the demonstration. Firmware re-programming of the JN514x modules is described in ...

Page 22

Chapter 1 Introduction to the Evaluation Kit Figure 11: Stages of Antenna Mounting Figure 12: Antenna Mounting and Connection 22 Caution: Once you have mounted an antenna on a board, do not remove it as the antenna assembly is fragile ...

Page 23

... USB port of the Linksys router (see together forming a ‘Border-Router’:  The dongle provides the interface with the WPAN part of the JenNet-IP system, also acting as the WPAN Co-ordinator  The Linksys router provides the interface with the LAN/WAN part of the ...

Page 24

... Figure 14: Linksys Router and Accessories The supplied Linksys router has been pre-programmed with an NXP firmware upgrade which allows the router to operate in a JenNet-IP system. The router is used in conjunction with a JN5148-J01 high-power USB dongle (see an interface between a WPAN of the JenNet-IP system (containing the devices to be ...

Page 25

... Together the Linksys router and USB dongle form a ‘Border-Router’ for the WPAN:  The Linksys router provides the interface with the LAN/WAN part of the JenNet- IP system  The dongle provides the interface with the WPAN part of the JenNet-IP system, also acting as the WPAN Co-ordinator JN-UG-3089 v1.2 ...

Page 26

... Chapter 1 Introduction to the Evaluation Kit 1.4 Smart Home Demonstration The components of the kit are pre-loaded with the software for the JenNet-IP Smart Home Demonstration, which can be set up and run in either of two configurations:  Full mode, described in controlled:  from outside the WPAN, via an IP connection from a PC  ...

Page 27

... This chapter outlines the essential concepts that you will need in order to set up and run the supplied JenNet-IP Smart Home demonstration. As indicated in page 12, a JenNet-IP system is built using a combination of Internet and wireless network technologies. Therefore, information is provided here on:  Wireless networks (WPANs)  ...

Page 28

... End Device can sleep when it is not required to be active. In the JenNet-IP Smart Home demonstration system, a USB dongle from the evaluation kit acts as the WPAN Co-ordinator. The boards from the evaluation kit act as the Routers of the network. There are no End Devices in the demonstration. ...

Page 29

... Network Topology A WPAN in a JenNet-IP system normally has a Tree topology, which determines how the nodes are linked and how messages propagate through the network. A Tree network consists of a Co-ordinator, Routers and End Devices. The Co- ordinator is linked to a set of Routers and End Devices - its children. A Router may then be linked to more Routers and End Devices - its children ...

Page 30

... Co-ordinator, two Routers and three End Devices. Note that a Router can be used as a ‘leaf’ node in a Tree network, in which case its routing capability is not utilised. This is the case in the JenNet-IP Smart Home demonstration (in which there are no nodes programmed as End Devices). 30 Figure 17: Different Tree Networks © ...

Page 31

... It is also sometimes called the ‘extended’ address JenNet-IP system, a WPAN node is identified by means of its IPv6 address. This is a 128-bit address which is formed from a 64-bit address prefix (specified by the system developer) and the 64-bit MAC address of the node. For more information on IPv6 addresses, refer to JN-UG-3089 v1 ...

Page 32

... IP Concepts This section briefly describes the aspects of the Internet Protocol (IP) that you will need to understand in order to operate the JenNet-IP Smart Home demonstration. For a more complete introduction to IP, refer to the JenNet-IP LAN/WAN Stack User Guide (JN-UG-3086). 2.2.1 IP Data Packets The Internet Protocol is used by computers/servers on the worldwide web, and other communications networks, to transfer data between each other ...

Page 33

... IEEE (MAC) address of the device (which is itself a universally unique identifier), with bit 57 inverted. Figure 18: IPv6 Address Components JN-UG-3089 v1.2 2001:DB8F:756A::9B67:84C:6112 2001:DB84:0:0:0:385A:0:3A6D 2001:DB84:0:0:385A:0:0:3A6D 2001:DB84:0:385A:0:0:0:3A6D Address Host Prefix Interface ID X:X:X:X:X:X:X:X Site Subnet Prefix ID © NXP Laboratories UK 2012 JenNet-IP EK040 Evaluation Kit User Guide 33 ...

Page 34

... Chapter 2 JenNet-IP System Concepts 2.3 JenNet-IP Software Stacks A JenNet-IP system consists of a WPAN part and a LAN/WAN part. The WPAN and LAN/WAN domains are connected via a Border-Router device, one for each WPAN - see Figure 1 on page 12. The Border-Router is normally the same device as the WPAN Co-ordinator node ...

Page 35

... The two JenNet-IP stack types are outlined in the sub-sections below. The roles of these stacks in handling data messages are also indicated in 2.3.1 JenNet-IP WPAN Stack The layers of the JenNet-IP WPAN stack are indicated in the figure below. This stack is described in more detail in the JenNet-IP WPAN Stack User Guide (JN-UG-3080). 2.3.2 JenNet-IP LAN/WAN Stack The layers of the JenNet-IP LAN/WAN stack are indicated in the figure below ...

Page 36

... Chapter 2 JenNet-IP System Concepts 2.4 Data Message Handling A data message may be sent from any part of the system to any other. Since a JenNet- IP system is IPv6-based, a message is sent in an IPv6 packet. A WPAN operates using the IEEE 802.15.4 standard protocol at its lowest level and messages are exchanged within the network as IEEE 802.15.4 frames. Thus, within a WPAN, IPv6 packets are embedded inside IEEE 802 ...

Page 37

... Smart Home Demonstration The chapter describes how to use the contents of the JenNet-IP EK040 Evaluation Kit to set up and run the pre-loaded JenNet-IP Smart Home demonstration. This demonstration is based on a WPAN with nodes containing lights, which may be monitored and controlled as follows:  via an IP connection from a remote device on a LAN or WAN (e.g from a PC)  ...

Page 38

... Linksys Router: The Linksys router has been pre-programmed with an NXP firmware upgrade which allows the router to operate in a JenNet-IP system connected to the above USB dongle (via the USB extension cable). Together they provide the Border-Router which is the interface between the WPAN and LAN/WAN domains - the router handles the LAN/WAN side of the interface and connects to the Ethernet bus on which the controlling PC is located ...

Page 39

... The application can be accessed by entering the following (case-sensitive) IP address into the web browser:  JenNet-IP Browser: This application provides a low-level interface for monitoring and controlling the lights in the WPAN, allowing the user to access the MIBs on the WPAN nodes (see ...

Page 40

Chapter 3 Smart Home Demonstration 3.1.2 Lighting Control from the Remote Control Unit In this demonstration, control commands can be entered into the Remote Control Unit and wirelessly broadcast (in IEEE 802.15.4 packets) to the WPAN nodes. A command can ...

Page 41

... Wake button). 3.1.3 Node States and MIBs In JenNet-IP, the state of a node is held in a Management Information Base (MIB table of variables on the node - each MIB is a logical grouping of variables.  A control operation is implemented by writing to the relevant MIB variable  ...

Page 42

Chapter 3 Smart Home Demonstration 3.2 Setting Up the Demo System This section describes how to set up the demo system using the evaluation kit components in the roles indicated in  Setting up the LAN part of the system ...

Page 43

... IP address into the browser the resulting web page, log in with username root and password snap the next web page, select the JenNet-IP tab and then select the 6LoWPANd sub-tab. The 6LoWPANd sub-tab is illustrated in the screenshot below. ...

Page 44

... Enable JenNet Security Serial Device IEEE 802.15.4 Channel IEEE 802.15.4 PAN ID JenNet ID Wireless Network IPv6 Prefix Table 3: 6LoWPANd Interface Parameters e) In the 6LoWPANd sub-tab, click the Edit button f) In the 6LoWPANd Configuration screen (which now appears), click on the General Setup tab. This displays similar fields to those listed above in as shown in the screenshot below (except Security separate tab) ...

Page 45

... Ensure that the Enable Interface checkbox is ticked.  Ensure that the Enable 15.4 Bandwidth Throttling checkbox is unticked. Ensure that the JenNet Network Id to start field is set to 0x11111111   (this is an application-specific identifier).  If required, enter a new setting for the IEEE 802.15.4 PAN ID. ...

Page 46

Chapter 3 Smart Home Demonstration i) If you have made any changes, click the Save & Apply button to implement them. 46 © NXP Laboratories UK 2012 JN-UG-3089 v1.2 ...

Page 47

... WPAN as a Router node, it will then discard its Router functionality and become a ‘sleepy broadcaster’ (see Section 3.1). In order to wake the unit from sleep at any time, press the Wake (circle) button located below the keypad. © NXP Laboratories UK 2012 JenNet-IP EK040 Evaluation Kit User Guide Section 3.2.2) 47 ...

Page 48

... On the resulting web page, log in with username root and password snap. Step 3 Display the ‘whitelist’ of WPAN nodes in the interface on the the interface, select the JenNet-IP tab and then select the Whitelist sub-tab. Normally, this sub-tab shows a list of the detected WPAN nodes, identified by their IPv6 addresses, as illustrated in the screenshot below ...

Page 49

... There is no timeout on the node’s attempt to find and join the WPAN, but the node will not be able to join until it has been whitelisted (next step). Step 5 Add node to whitelist in the JenNet-IP Border-Router Configuration interface a) Ensure that the Whitelist tab is shown in the JenNet-IP Border-Router Configuration interface in the web browser on the PC (see Step 3) ...

Page 50

... Lighting Control from PC The lights in the WPAN can be controlled from the PC via IP. This method of control allows the lights to be switched on, switched off or dimmed individually group or globally (all lights). The JenNet-IP Smart Home system must first be set up as described in Section You can control the lights in the WPAN from the Smart Devices interface which is ...

Page 51

... The lights on the nodes of the WPAN can be controlled from within the network using the Remote Control Unit. This method of control allows the lights to be switched on, switched off or dimmed. The JenNet-IP Smart Home demonstration system must first be set up as described in The Remote Control Unit allows the control of a group of nodes or all the nodes in the network ...

Page 52

Chapter 3 Smart Home Demonstration Switching on lights The lights (in the selected group) can be switched on by pressing the key:  light is off when this key is pressed, it will be illuminated to the brightness ...

Page 53

... Configuring Groups on the PC This section describes how to set up groups of lights (WPAN nodes) for control from a PC via an IP connection. Groups of lights can be set up from the JenNet-IP Browser, which runs on the Linksys router and is accessed via a normal web browser on the PC. The JenNet-IP Smart Home demonstration provides the following groups via the JenNet-IP Browser:  ...

Page 54

... Management Information Bases (MIBs) on the node, as illustrated in the screenshot below (which shows a partial view of this page). Figure 25: JenNet-IP Browser ‘Node MIBs’ Page The IPv6 address of the relevant node is shown on the orange tab at the top of the page. Clicking on the adjacent Network tab will take you back to Network Contents. ...

Page 55

... Figure 26: JenNet-IP Browser ‘Groups MIB’ Page This page can be used to modify the group memberships of the node (with IPv6 address indicated at the top of the page), by means of the following fields:  AddGroup: To add the node to a group: a) Enter the identifier of the group in this field (removing the curly bracket, if necessary), e.g. 0x15A00A for the “ ...

Page 56

Chapter 3 Smart Home Demonstration 3.4.2 Configuring Groups on the Remote Control Unit This section describes how to set up groups of lights (WPAN nodes) for control from the Remote Control Unit in the WPAN. On the Remote Control Unit, ...

Page 57

... Smart Home Demonstration (Standalone) The chapter describes how to use the contents of the JenNet-IP EK040 Evaluation Kit to set up and run the pre-loaded JenNet-IP Smart Home demonstration in ‘standalone’ mode. This demonstration is based on an isolated WPAN with nodes containing lights and sensors, which can be controlled wirelessly from a Remote Control Unit. ...

Page 58

... Light Carrier Light Board Carrier Board JenNet-IP WPAN (IEEE 802.15.4) Light Carrier Board Note: The Remote Control Unit can be put into Co- ordinator mode for node commissioning (through the key sequence PRG ON OFF ON GRP). It will remain in this mode for 5 minutes, but the mode can be exited at any time by pressing the Wake button (below the keypad) ...

Page 59

... Switch on light(s) OFF Switch off light(s) UP Increase brightness of light(s) DOWN Decrease brightness of light(s) PRG Programming mode ALL All groups GRP Group A Group B Group C Group D Wake Wake Remote Control Unit from sleep © NXP Laboratories UK 2012 JenNet-IP EK040 Evaluation Kit User Guide 59 ...

Page 60

... Chapter 4 Smart Home Demonstration (Standalone) 4.1.2 Node States and MIBs In JenNet-IP, the state of a node is held in a Management Information Base (MIB table of variables on the node - each MIB is a logical grouping of variables. A control operation is implemented by writing to the relevant MIB variable. To use the standalone Smart Home demonstration not strictly necessary to know about the MIBs, but they are detailed in the JenNet-IP Smart Home Application Note (JN-AN-1162), which describes the application code for the demonstration ...

Page 61

... The star (*) option refers to the All group. A node is automatically added to the All group (as well as to the specified group). However, you can specify the All group in the key seqeunce if you do not wish the node to be assigned to any other group. © NXP Laboratories UK 2012 JenNet-IP EK040 Evaluation Kit User Guide 61 ...

Page 62

Chapter 4 Smart Home Demonstration (Standalone) Following the above key sequence, the Remote Control Unit will allow 5 minutes for nodes to join the network, during which the left LED on the unit will be illuminated. At the end of ...

Page 63

... This section describes how to control the lights (white LEDs) on the nodes in the standalone WPAN from the Remote Control Unit. The lights can be switched on, switched off or dimmed. The standalone JenNet-IP Smart Home demonstration system must first be set up as described in The Remote Control Unit allows the control of a group of nodes or all the nodes in the network ...

Page 64

Chapter 4 Smart Home Demonstration (Standalone) Increasing brightness of lights The lights (in the selected group) can be increased in brightness by pressing the key:  The brightness will only increase while the key is being pressed, until the maximum ...

Page 65

... Section 5.1  Section 5.2 you must install in order to develop your application. 5.1 User Documentation A complete list of the user documentation relevant to JenNet-IP is provided in the tables below. This documentation is available from www.nxp.com/jennic/support. Table 5 below lists and describes the documentation related to application coding. Part Number Document Title ...

Page 66

... User Guide Table 6: JenNet-IP User Documentation (Development Tools) 5.2 Software Developer’s Kit (SDK) A Software Developer’s Kit (SDK) is provided to facilitate the development of JenNet- IP applications on a PC. This SDK includes Application Programming Interfaces (APIs) and development tools, and is supplied as two installers:  JenNet-IP SDK (JN-SW-4051): The SDK components that can be installed ...

Page 67

... Appendices A. Remote Control Operations in the Demonstration The table below summarises the key sequences and associated operations that can be performed from the Remote Control Unit in the JenNet-IP Smart Home demo. Operation Switch on lights in selected group Switch off lights in selected group Increase brightness of lights in selected group (increase occurs while key UP [+] key is pressed) ...

Page 68

... Appendices B. Firmware Re-programming The following components of the JenNet-IP EK040 Evaluation Kit are supplied pre- programmed with the JenNet-IP Smart Home demonstration but can be re- programmed with other applications:  Remote Control Unit - see  JN514x modules - see  USB dongles - see B ...

Page 69

... B.2 Re-programming JN514x Modules The Flash memory devices on the supplied JN514x modules are pre-programmed with the software for the JenNet-IP Smart Home demonstration. At some point, you may wish to re-program the modules with another application this, you must use the standalone version of the JN51xx Flash Programmer utility (JN-SW-4007), which is available from www ...

Page 70

... Before a custom application binary file can be programmed into the USB dongle, a utility called jn514x_firmware.exe must be run on the file to strip out a 4-byte header. This utility is provided in the JenNet-IP SDK (JN-SW-4051) and is located as follows: C:/Jennic/Tools/NXP_USBDongle/jn514x_firmware.exe The utility can be run from a bash shell using the following command: /cygdrive/c/Jennic/Tools/NXP_USBDongle/jn514x_firmware ...

Page 71

... Right-click on the VCOM port and from the context menu select 'Update driver software..' and then select the manual installation method (bottom option). 4. Use the Update Driver Software browser to navigate down to the folder C:\Jennic\Tools\NXP_USBDongle\Drivers and then click Next. JN-UG-3089 v1.2 © NXP Laboratories UK 2012 JenNet-IP EK040 Evaluation Kit User Guide 71 ...

Page 72

Appendices The system will now install the software driver. 5. You can check that the device has installed correctly since the device NXP LPC1343 will appear in the Ports (COM & LPT) section and will appear as a USB mass ...

Page 73

... C.1 FCC Statements and Documentation This section contains the Federal Communication Commission (FCC) statements and documents. TX FCC IDs of Kit Contents The JenNet-IP EK040 Evaluation Kit contains the following TX FCC IDs: TYOJN5142M0, TYOJN5142M3, TYOJN5148M0, TYOJN5148U0, TYOJN5148M6 and Q87-WRT160NL. High-Power Module Usage Limitation The high-power module variants are classified as 'mobile' devices pursuant with FCC § ...

Page 74

Appendices FCC Caution: Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate this equipment. WARNING! FCC Radiation Exposure Statement: This portable equipment with its antenna complies with FCC's RF ...

Page 75

... San Jose CA 95134 USA Tel 001 408-518 5302 DR1128 Programming Dongle Declaration of Conformity NXP Semiconductors BV DR1128 Programming Dongle © NXP Laboratories UK 2012 JenNet-IP EK040 Evaluation Kit User Guide NXP LABORATORIES (UK) LTD FURNIVAL STREET SHEFFIELD S1 4QT UNITED KINGDOM TELEPHONE: +44 (0) 114 281 2655 ...

Page 76

... NXP Semiconductors BV DR1159 Remote control unit th Sheffield, September 7 , 2012 Conrad Farlow, Senior RF Hardware Engineer, NXP Laboratories Ltd 76 STATEMENT NXP Semiconductors Netherlands B.V Niel P Smith NXP Semiconductors 411 E. Plumeria Drive San Jose CA 95134 USA Tel 001 408-518 5302 DR1159 Remote Control Unit Declaration of Conformity © ...

Page 77

... NXP Semiconductors 411 E. Plumeria Drive San Jose CA 95134 USA Tel 001 408-518 5302 DR1174 Carrier Board Declaration of Conformity © NXP Laboratories UK 2012 JenNet-IP EK040 Evaluation Kit User Guide NXP LABORATORIES (UK) LTD FURNIVAL STREET SHEFFIELD S1 4QT UNITED KINGDOM TELEPHONE: +44 (0) 114 281 2655 ...

Page 78

... Sheffield, September 7 , 2012 Conrad Farlow, Senior RF Hardware Engineer, NXP Laboratories Ltd 78 STATEMENT NXP Semiconductors Netherlands B.V Niel P Smith NXP Semiconductors 411 E. Plumeria Drive San Jose CA 95134 USA Tel 001 408-518 5302 ...

Page 79

... EMC, EN 301 489-17 v2.1.1 (2009-02) and the Basic Safety Assessment (BSA) EN 60950-1:2006 (2006-06) and are subject to a Notified Body Opinion. CE Documentation for All Kit Components The CE documentation for all components of the JenNet-IP EK040 Evaluation Kit is shown below (2 pages). JN-UG-3089 v1.2 © NXP Laboratories UK 2012 ...

Page 80

... Health & Safety EN 60590-1: 2006, A1, A11, A12 Issued 80 NXP Laboratories (UK) Ltd Furnival Street Sheffield S1 4QT JENNET-IP-EK040 Evaluation kit Containing the following components JN5148-J01-M00 Module JN5148-J01-M03 Module JN5148-J01-M06 High power module JN5148-J01-U00 USB Dongle JN5142-J01-M00 Module JN5142-J01-M03 Module DR1128 Programming Dongle ...

Page 81

... EU Directive 1995/5/EC. The product carries the CE Mark: th Sheffield, September 11 Conrad Farlow, Senior Hardware Engineer, NXP Laboratories Ltd Issued JN-UG-3089 v1.2 , 2012 © NXP Laboratories UK 2012 JenNet-IP EK040 Evaluation Kit User Guide Public © NXP 2012 81 ...

Page 82

Appendices 82 © NXP Laboratories UK 2012 JN-UG-3089 v1.2 ...

Page 83

... JN-UG-3089 v1.2 Comments First release Compliance statements and documentation added, module names clarified and other minor modifications made Method of exiting Co-ordinator mode on Remote Control Unit changed. Operations reference table re-organised. © NXP Laboratories UK 2012 JenNet-IP EK040 Evaluation Kit User Guide 83 ...

Page 84

... JenNet-IP EK040 Evaluation Kit User Guide Important Notice Limited warranty and liability - Information in this document is believed to be accurate and reliable. However, NXP Semiconductors does not give any representations or warranties, expressed or implied the accuracy or completeness of such information and shall have no liability for the consequences of use of such information. NXP Semiconductors takes no responsibility for the content in this document if provided by an information source outside of NXP Semiconductors ...