all | frequencies |
|
exhibits | applications |
---|---|---|---|---|
manual |
app s | submitted / available | |||||||
---|---|---|---|---|---|---|---|---|
1 |
|
014-0057-00 B Integration Specification | Users Manual | 4.11 MiB | ||||
1 | ID Label/Location Info | |||||||
1 | Test Report | |||||||
1 | RF Exposure Info | |||||||
1 | External Photos | |||||||
1 | Internal Photos | |||||||
1 | Test Setup Photos | |||||||
1 | Cover Letter(s) | |||||||
1 | Cover Letter(s) | |||||||
1 | Attestation Statements | |||||||
1 | Cover Letter(s) |
1 | 014-0057-00 B Integration Specification | Users Manual | 4.11 MiB |
TRN-2013 Integration Specification On-Ramp Wireless Confidential and Proprietary. This document is not to be used, disclosed, or distributed to anyone without express written consent from On-Ramp Wireless. The recipient of this document shall respect the security of this document and maintain the confidentiality of the information it contains. The master copy of this document is stored in electronic format, therefore any hard or soft copy used for distribution purposes must be considered as uncontrolled. Reference should be made to On-Ramp Wireless to obtain the latest revision. On-Ramp Wireless Incorporated 10920 Via Frontera, Suite 200 San Diego, CA 92127 U.S.A. Copyright 2013 On-Ramp Wireless Incorporated. All Rights Reserved. The information disclosed in this document is proprietary to On-Ramp Wireless Inc., and is not to be used or disclosed to unauthorized persons without the written consent of On-Ramp Wireless. The recipient of this document shall respect the security of this document and maintain the confidentiality of the information it contains. The master copy of this document is stored in electronic format, therefore any hard or soft copy used for distribution purposes must be considered as uncontrolled. Reference should be made to On-Ramp Wireless to obtain the latest version. By accepting this material the recipient agrees that this material and the information contained therein is to be held in confidence and in trust and will not be used, copied, reproduced in whole or in part, nor its contents revealed in any manner to others without the express written permission of On-Ramp Wireless Incorporated. On-Ramp Wireless Incorporated reserves the right to make changes to the product(s) or information contained herein without notice. No liability is assumed for any damages arising directly or indirectly by their use or application. The information provided in this document is provided on an as is basis. This document contains On-Ramp Wireless proprietary information and must be shredded when discarded. This documentation and the software described in it are copyrighted with all rights reserved. This documentation and the software may not be copied, except as otherwise provided in your software license or as expressly permitted in writing by On-Ramp Wireless, Incorporated. Any sample code herein is provided for your convenience and has not been tested or designed to work on any particular system configuration. It is provided AS IS and your use of this sample code, whether as provided or with any modification, is at your own risk. On-Ramp Wireless undertakes no liability or responsibility with respect to the sample code, and disclaims all warranties, express and implied, including without limitation warranties on merchantability, fitness for a specified purpose, and infringement. On-Ramp Wireless reserves all rights in the sample code, and permits use of this sample code only for educational and reference purposes. This technology and technical data may be subject to U.S. and international export, re-export or transfer
(export) laws. Diversion contrary to U.S. and international law is strictly prohibited. Random Phase Multiple Access is a trademark of On-Ramp Wireless Incorporated. Other product and brand names may be trademarks or registered trademarks of their respective owners. TRN-2013 Integration Specification 014-0057-00 Rev. B June 4, 2013 Contents 1 Overview ................................................................................................................ 7 1.1 On-Ramp Wireless Total Reach Network .................................................................................. 7 1.2 Referenced Documents ............................................................................................................. 8 2 DC and RF Characteristics ................................................................................... 9 2.1 Absolute Maximum Ratings ....................................................................................................... 9 2.2 Recommended Operating Conditions ........................................................................................ 9 2.3 Operating Characteristics .......................................................................................................... 9 2.4 Power Supplies ........................................................................................................................ 10 3 Electrical Interface .............................................................................................. 11 3.1 Signal Connectors .................................................................................................................... 11 3.2 Pin and Signal Descriptions ..................................................................................................... 12 3.3 Environmental .......................................................................................................................... 12 3.3.1 ESD ................................................................................................................................ 12 3.3.2 Harsh Environments ....................................................................................................... 12 4 Safety Considerations ........................................................................................ 13 5 Regulatory Considerations ................................................................................ 14 5.1 Block Diagram .......................................................................................................................... 14 5.2 Antenna .................................................................................................................................... 14 5.3 EMC Certifications ................................................................................................................... 15 5.4 FCC Warnings .......................................................................................................................... 15 5.5 IC Warnings ............................................................................................................................. 16 5.6 Usage ....................................................................................................................................... 16 5.6.1 Product Labels ................................................................................................................ 17 5.6.2 RF Exposure Statement ................................................................................................. 17 5.7 WEEE Directive ........................................................................................................................ 17 5.8 REACH Directive ...................................................................................................................... 17 5.9 RoHS Directive ......................................................................................................................... 18 6 Installation of TRN-2013 Board .......................................................................... 19 7 Provisioning ........................................................................................................ 20 7.1 Manual ..................................................................................................................................... 20 7.2 Automatic ................................................................................................................................. 20 Appendix A RF Test Mode Interface ..................................................................... 21 A.1 Normal Operating Mode 0 ....................................................................................................... 21 A.2 Non-Persistent Idle / Factory Test Mode 1 .............................................................................. 21 On-Ramp Wireless Confidential and Proprietary iii 014-0057-00 Rev. B TRN-2013 Integration Specification Contents A.3 Persistent Idle / Factory Test Mode 2 ...................................................................................... 21 A.4 Non-Persistent Node RF Test Mode 3 .................................................................................... 21 A.5 Persistent Node RF Test Mode 4 ............................................................................................ 22 A.6 Non-Persistent Manufacturing Cal Mode 5 ............................................................................. 22 A.7 Persistent Manufacturing Cal Mode 6 ..................................................................................... 22 A.8 Non-Persistent Meter Diagnostic Mode (Not Yet Implemented) ............................................. 23 A.9 Setting eMCM to Test Mode 1 - Non-Persistent Idle Factory Test Mode ................................ 23 A.10 Setting eMCM to Test Mode 2 - Persistent Idle Factory Test Mode ..................................... 24 A.11 Setting eMCM to Test Mode 3 - Non-Persistent RF Test Mode ............................................ 24 A.12 Setting eMCM to Test Mode 4 - Persistent RF Test Mode .................................................... 25 Appendix B REACH Compliance Statements ...................................................... 26 Appendix C Abbreviations and Terms ................................................................. 28 Appendix D TRN-2013 Mechanical Drawing and Schematics ............................ 30 Figures Figure 1. On-Ramp Wireless Total Reach Network ......................................................................... 7 Figure 2. TRN-2013 Printed Circuit Board ..................................................................................... 11 Table 3. Pins and Signals for J500 Signal and Power Connector ................................................. 12 Figure 4. Meter Test Connection Diagram ..................................................................................... 13 Figure 5. TRN-2013 Block Diagram ............................................................................................... 14 Figure 6. TRN-2013 Product Label ................................................................................................ 17 Figure 7. Meter Assembly with a TRN-2013 MCM ........................................................................ 19 Figure 8. Mechanical Dimensions for TRN-2013 ........................................................................... 31 Figure 9. TRN-2013 board schematic, page 1 ............................................................................... 32 Figure 10. TRN-2013 schematic, page 2 ....................................................................................... 33 Figure 11. TRN-2013 schematic, page 3 ....................................................................................... 34 Figure 12. TRN-2013 schematic, page 4 ....................................................................................... 35 Figure 13. TRN-2013 schematic, page 5 ....................................................................................... 36 Tables Table 1. Absolute Maximum Ratings ............................................................................................... 9 Table 2. Operating Conditions ......................................................................................................... 9 Table 3. Operating Characteristics .................................................................................................. 9 Table 4. ESD Rating ...................................................................................................................... 12 On-Ramp Wireless Confidential and Proprietary iv 014-0057-00 Rev. B TRN-2013 Integration Specification Contents Table 5. On-Ramp Wireless EMC Certified Antenna ..................................................................... 14 Table 6. TRN-2013 EMC Compliance Certifications ..................................................................... 15 On-Ramp Wireless Confidential and Proprietary v 014-0057-00 Rev. B Revision History Revision Release Date A B September 13, 2012 June 4, 2013 Change Description Initial release Updated product names, block diagram, and regulatory/certification information. On-Ramp Wireless Confidential and Proprietary vi 014-0057-00 Rev. B 1 Overview 1.1 On-Ramp Wireless Total Reach Network The purpose of this document is to provide guidelines allowing an integrator to design a host product that uses the TRN-2013 MCM (Meter Communications Module) and ensures that the system meets all of its technical objectives and requirements. The On-Ramp Wireless Total Reach Network is comprised of host modules, such as TRN-2013 modules equipped with microNodes, and Access Points (APs). The network operates in the unlicensed 2.4 GHz ISM band. The TRN-2013 circuit board is designed to easily integrate into electric meters, through standard interfaces, enabling robust wireless communication with one or more APs interfaced with a service providers local or wide area network. Figure 1. On-Ramp Wireless Total Reach Network On-Ramp Wireless Confidential and Proprietary 7 014-0057-00 Rev. B TRN-2013 Integration Specification 1.2 Referenced Documents The following documents are referenced and provide more detail:
TRN-2013 FCC and IC EMC Compliance Grants These are the Regulatory Grants issued by their respective governments. Overview Provisioning Guide (010-0074-00) Describes setup, configuration, and use of a collection of utilities called Node Provisioning Tools (NPT) used for Node provisioning. Node Host Message Specification (014-0020-00) Provides details relating to Node Host commands and messages. Node Interface Library (UNIL) (010-0066-00) Provides information about the library of portable C code provided by On-Ramp Wireless which can be integrated into a customers existing software architecture. UNIL API (010-0072-00) Provides details relating to the UNIL Application Programming Interface. On-Ramp Wireless Confidential and Proprietary 8 014-0057-00 Rev. B Operation outside of the Recommended Operating Conditions may not yield proper operation. 2 DC and RF Characteristics 2.1 Absolute Maximum Ratings Table 1. Absolute Maximum Ratings Operation outside of the Absolute Maximum Ratings may damage the module. Parameter Storage Temperature (Ts) Ambient Temperature (Ta) Input Voltage (VBATT) Min
-40
-40 0.0 Max 85 85 5.0 Table 2. Operating Conditions 2.2 Recommended Operating Conditions 2.3 Operating Characteristics Parameter Ambient Temperature (Ta) Input voltage (VBATT) Max 85 4.4 Min
-40 3.0 Unit C C V Unit C V The following characteristics apply across the -40C to +85C temperature range unless otherwise noted. Table 3. Operating Characteristics Parameter Wireless Frequency Bandwidth Protocol Standard Modulation Multiple Access Scheme Transmit Power (peak EiRP) Receive Sensitivity Antenna Data Throughput Outdoor Range (FCC/IC markets) TRN-2013 Module 2.4 GHz ISM 1 MHz nominal IEEE 802.15.4k Dynamic-Direct Sequence Spread Spectrum (D-DSSS) Random Phase Multiple Access (RPMA)
+23 dBm (FCC/IC)
-136 dBm (includes peak antenna gain) Integrated antenna diversity 60 kbps (at access point in 1 MHz channel bandwidth) Pole Top: 4 6 square miles Building Top: 70 400 square miles Communication Tower: 140 420 square miles On-Ramp Wireless Confidential and Proprietary 9 014-0057-00 Rev. B TRN-2013 Integration Specification DC and RF Characteristics Parameter Maximum Allowable Path Loss Current Consumption Operating Temperature Relative Humidity Security Certifications Note: Specifications subject to change TRN-2013 Module 172 dB (FCC/IC) 0.22A max. @ 4VDC (during TX1) 0.20A max. @ 4VDC (during RX2)
-40C to 85C 5% to 95% non-condensing AES 128-bit payload encryption, mutual authentication of network elements FCC and IC EMC certifications for TRN-2013 are pending. Meter ANSI and Unintentional Radiator certifications required once integrated into the meter product. NOTE 1: During TX mode the supercap charger is disabled to reduce peak currents. NOTE 2: During RX mode the supercap charger is enabled. The supercap charge current is limited to about 110mA. 2.4 Power Supplies The TRN-2013 utilizes two main power supplies when it is functioning:
1. Main switching power supply (3.3VDC output). This main buck-boost power supply is operating at all times. It supplies power to all digital and radio circuits. 2. Supercap Charger (~4.4VDC output). This boost type switching power supply is used to charge the super capacitors. It can only operate with an input supply up to about 4.4VDC. It is in use at all times when primary power is applied. Once primary power is interrupted this power supply is disabled and the super caps supply power to the main switching power supply. Additionally the microNode module on the TRN-2013 printed circuit board has its own switching power supply (buck-boost) that uses, as its source, the main switching power supply of the TRN-
2013. On-Ramp Wireless Confidential and Proprietary 10 014-0057-00 Rev. B 3 Electrical Interface 3.1 Signal Connectors This chapter describes the electrical interface of the TRN-2013. Both sides of the TRN-2013 printed circuit board are shown below. Figure 2. TRN-2013 Printed Circuit Board On-Ramp Wireless Confidential and Proprietary 11 014-0057-00 Rev. B TRN-2013 Integration Specification 3.2 Pin and Signal Descriptions The following table lists the pins and signals for the J500 connector. Table 3. Pins and Signals for J500 Signal and Power Connector Electrical Interface MCM Pin # Pin Name Signal Description Transmit signal from Meter Receive signal from Meter Signal ground (not Earth ground) AMI power input; 3.3VDC nominal. TX RX GND VCC METER_ERROR Meter Error AMI must go read status METER_READY YPULSE Meter Ready Ready from communications Power Fail from Meter 1 2 3 4 5 6 7 3.3 Environmental 3.3.1 ESD The TRN-2013 has bidirectional ESD protection diodes on its 8 digital I/O pins providing protection to IEC 61000-4-2; level 4. Table 4. ESD Rating ESD Model Class and Minimum Voltage HBM MM Class 1C ( >1000V) Class A (>100V) The antennas have protection in the form of an inductor to ground, thus allowing some robustness to direct ESD strikes. Additionally, the antennas are encapsulated in the polycarbonate housing of the meter so there is little chance of high voltages on the antennas, or others of the board. 3.3.2 Harsh Environments The TRN-2013 is designed to be an embedded circuit board in an enclosed protective shell. It is not designed to be exposed to outdoor environments without a case or similar protection. An IP 67 or better protective casing is strongly recommended. The polycarbonate dome of the meter nominally provides robustness to harsh environments. On-Ramp Wireless Confidential and Proprietary 12 014-0057-00 Rev. B 4 Safety Considerations Danger: High Voltages When the TRN-2013 is integrated into the meter, high voltages are present:
CAUTION: When the TRN-2013 is mounted in a a Meter, the term GND or Ground does NOT refer to Earth ground. All signals will have a 120/240/480VAC power superimposed onto those lines. All signals to/from the TRN-2013 need to be isolated. No grounded instruments or computers should touch the TRN-2013 signals. It is recommended to use the following isolation/drivers. Isolator:
http://www.bb-elec.com/product_family.asp?FamilyId=651&webSyncID=85656815-ad8a-a188-
b050-1143ad0dee45&sessionGUID=bc450985-a6c1-9981-a0d7-6391dcb1c046 UART:
http://www.digikey.com/product-detail/en/TTL-232R-3V3-WE/768-1016-ND/1836394 Figure 4. Meter Test Connection Diagram On-Ramp Wireless Confidential and Proprietary 13 014-0057-00 Rev. B 5 Regulatory Considerations 5.1 Block Diagram Some regulatory domains require a block diagram of the module for their documentation similar to that shown in the following figure. Figure 5. TRN-2013 Block Diagram 5.2 Antenna This device has been certified to operate with the built-in (PCB chip) antenna listed below. Adherence to these EMC certifications requires that only this antenna be used. All other antennas with greater peak gain are strictly prohibited for use with the TRN-2013 unless new EMC certifications are obtained. Table 5. On-Ramp Wireless EMC Certified Antenna Manufacturer Part Number Ethertronics 1001013 Type Gain 2.1 dBi Monopole Comments Internal PCB chip antenna On-Ramp Wireless Confidential and Proprietary 14 014-0057-00 Rev. B Regulatory Considerations TRN-2013 Integration Specification 5.3 EMC Certifications The TRN-2013 is designed to meet regulations for world-wide use. It has EMC modular approval certifications in the United States and Canada. These certifications allow the TRN-2013 to be installed in any final product and only Unintentional Radiator testing is required for the final product. This saves cost and time for System Integrators. The certifications currently achieved are listed in the following table. Other countries will vary. Table 6. TRN-2013 EMC Compliance Certifications Country United States Certifying Agency Federal Communications Commission (FCC) Canada Industry Canada (IC) Requirement Documents or Paragraph 15.207 for power-line conducted emissions. 15.215 for TX 20dB bandwidth 15.247 for RF TX 6dB bandwidth, power, conducted and radiated emissions. RSS210e includes FCC tests and IC-specific tests (RX radiated emissions, 99% BW). The Grants issued by their respective governments for TRN-2013 are available to System Integrators to ensure that the product has been certified. For more information about these documents, see the list of documents referenced in section 1.2. The integrator of the final product is often required to do additional compliance tests. The integration application and market will determine the specifics. The integrator is advised to consult with local experts in compliance certifications for complete information. FCC The TRN-2013 is Single-Modular Certified, therefore the final product may only need Class B unintentional radiator and power-line conducted emissions tests. This should be done with the actual production antenna. Other countries will vary. 5.4 FCC Warnings This device complies with part 15 of the Federal Communications Commission (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. Changes or modifications not expressly approved by the manufacturer could void the users 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. On-Ramp Wireless Confidential and Proprietary 15 014-0057-00 Rev. B TRN-2013 Integration Specification Regulatory Considerations WARNING: This equipment generates, uses, and can radiate radio frequency energy. If not installed and used in accordance with the instructions, this equipment 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:
Re-orient or relocate the receiving antenna. Connect the equipment into an outlet on a circuit different from that to Increase the separation between the equipment and receiver. which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. 5.5 IC Warnings The installer of this radio equipment must ensure that the antenna is located or pointed so that it does not emit RF field in excess of Health Canada limits for the general population. Consult Safety Code 6 which is obtainable from Health Canadas website http://www.hc-sc.gc.ca/index-
eng.php. 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. To reduce potential radio interference to other users, select the antenna type and its gain so that the equivalent isotropically radiated power (EIRP) is not more than that permitted for successful communication. Canadian Two Part Warning Statement:
This device complies with Industry Canada licence-exempt RSS standard(s). 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. Le prsent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes : (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible d'en compromettre le fonctionnement. FCC ID: XTE-TRN-2013. IC: 8655A-TRN-2013. This device is only authorized for use in fixed and mobile applications. To meet FCC and other national radio frequency (RF) exposure 5.6 Usage On-Ramp Wireless Confidential and Proprietary 16 014-0057-00 Rev. B TRN-2013 Integration Specification Regulatory Considerations requirements, the antenna for this device must be installed to ensure a separation distance of at least 20cm (8 inches) from the antenna to a person. 5.6.1 Product Labels A label showing the FCC ID and IC designators, listed above, must be affixed to the exterior of any device containing the TRN-2013 (if the TRN-2013 is not visible). The exterior label must include: Contains FCC ID: XTE-TRN-2013 IC: 8655A-TRN-2013. The product label is shown in Figure 8. Figure 6. TRN-2013 Product Label 5.6.2 RF Exposure Statement The air interface supports operation on channels in the 2402 MHz 2476 MHz range for FCC/IC regulatory domains. Before this product becomes operational it must undergo a commissioning procedure, during which critical information required for operation is entered into the device and stored in non-volatile storage. It is during the initial commissioning procedure that the regulatory domain, under which the device will operate, is set. Subsequent configuration of the device during operation is checked against the commissioned regulatory domain and non-
permitted channels or transmit power levels are rejected and the device will not transmit until a permissible configuration per the commissioned regulatory domain is set. 5.7 WEEE Directive 5.8 REACH Directive Neither the TRN-2013 nor the Node is considered end products that put them under the WEEE initiatives in the EU. The WEEE directives do not apply to the TRN-2013 product. As of August 2012 the TRN-2013 by itself is REACH compliant under 1907/2006/EC. On-Ramp Wireless expects to receive a declaration of conformance from the Taiwan-based manufacturer of the node starting in September 2012. REACH compliance statements are found in Appendix C. On-Ramp Wireless Confidential and Proprietary 17 014-0057-00 Rev. B TRN-2013 Integration Specification 5.9 RoHS Directive The TRN-2013 and node comply with RoHS directive 2002/95/EC. On-Ramp Wireless has received Certificates of Conformance (CoC) for all components, printed circuit board and contract manufacturers for the TRN-2013 and the Node. Copies of the CoCs are stored at On Ramp Wireless and available upon request. Regulatory Considerations On-Ramp Wireless Confidential and Proprietary 18 014-0057-00 Rev. B 6 Installation of TRN-2013 Board The following figure shows how the TRN-2013 MCM is mounted inside the meter. Three screws
(P/N 9925887027, #4-24X.31 self-tapping, type BF Phillips pan-head steel zinc screw) are required to mount TRN-2013 in place. The recommended torque values for the screws are 6 to 7 in.-lbf. Three mounting screws Figure 7. Meter Assembly with a TRN-2013 MCM On-Ramp Wireless Confidential and Proprietary 19 014-0057-00 Rev. B RF Test Mode Interface TRN-2013 Integration Specification 7 Provisioning 7.1 Manual The tools and software required for provisioning the TRN-2013 modules are described in this section. The Provisioning process can be handled in two main ways:
Manual for small runs Automatic for full production. The Node Provisioning Tool (see referenced tools/documents) can be used to provision TRN-
2013 boards in small quantity. The PC will attach to the DUT TRN-2013 via its Provisioning header (UART is 3.3V). The TRN-2013 connector is J202 and requires a TE Connectivity connector PN 1470364-3 to mate with it. The pin out is:
Pin 1 Debug_RX (3V3 logic) Pin 2 Debug_TX (3V3 logic) Pin 3 GND CAUTION: When the TRN-2013 is mounted in an I210 Meter, the term GND or Ground does NOT refer to Earth ground. All signals will have a 120/240VAC power imposed onto those lines. All signals to/from the TRN-2013 board need to be isolated. No grounded instruments, or computers, should touch the TRN-2013 board signals. Use the setup as described in Figure 2. 7.2 Automatic The automatic process is defined and built by the Customer. On-Ramp Wireless has assisted in the development of these tools but these tools are not the property of On-Ramp Wireless. It is the customer who owns, defines, develops, document, and maintains the Manufacturing Tools. The Provisioning process nominally deals with:
Loading in current versions of Software to microNode and K20 processors Configuring (channels, TX power, etc.) Setting and configuring Security Keys (via LKS server) Performing an OTA test to ensure the complete meter-TRN-2013-antenna chain is verified Lock down all access ports such as UART header and JTAG. A graphical representation of the provisioning process is shown in Appendix A. On-Ramp Wireless Confidential and Proprietary 20 014-0057-00 Rev. B The RF Test Modes, described below, are set by setting the "testMode" parameter in the configuration file for the eMCM. This mode is entered based on a flash configuration setting. This mode is persistent across boots. This is the normal operating mode of the eMCM. UNIL is initialized to communicate with the Node. The meter software layer is initialized to communicate with the meter. Although the eMCM is in its normal operating mode, as determined by the flash configuration setting, other factors may subsequently cause the eMCM to change to a non-normal operating mode (e.g., meter is not in metering mode). Appendix A RF Test Mode Interface A.1 Normal Operating Mode 0 A.2 Non-Persistent Idle / Factory Test Mode 1 A.3 Persistent Idle / Factory Test Mode 2 A.4 Non-Persistent Node RF Test Mode 3 This mode is entered based on the testMode flash configuration setting. This mode is not persistent across boots (self-clearing). UNIL is initialized to pass-through mode. Meter software layer is not initialized. The UART on the AMR (automatic meter reading) serial interface is placed in loopback mode (using the same baud rate as the meter, e.g., 9600). Same as mode 2 except the flash testMode setting is automatically cleared to mode 0 when entering this mode. A subsequent "set test mode" command can set the cleared value to some other test mode value. This mode is entered based on the testMode flash configuration setting. This mode is persistent across boots. UNIL is initialized to pass-through mode. Meter software layer is not initialized. The UART on the AMR serial interface is placed into loopback mode (using the same baud rate as the meter, e.g., 9600). Same as mode 1 except the flash testMode setting is persistent across boots. To exit this mode, the test mode configuration setting must be set to another value which will take effect on eMCM reset. This mode is entered based on the testMode flash configuration setting. This mode is not persistent across boots (self-clearing). UNIL is initialized to pass-through mode. The meter software layer is not initialized. Same as mode 4 except the flash testMode setting is automatically cleared to mode 0 when entering this mode. A subsequent "set test mode"
command can set the cleared value to some other test mode value. The TX test mode is controlled by the "txTestMode" parameter in the configuration file. 1 = CW_CENTER 2 = CW_OFFSET 3 = MODULATED On-Ramp Wireless Confidential and Proprietary 21 014-0057-00 Rev. B TRN-2013 Integration Specification RF Test Mode Interface The antenna is controlled by the "txTestAntenna" parameter in the configuration file. 0 or 1 The frequency is controlled by the "txTestCenterFreqKhzOffset" parameter in the configuration file. KHz offset from 2.4 GHz 2000 - 100000 Example: 50000 = 2.45 GHz The VGA is controlled by the "txTestVga" parameter in the configuration file. 0 - 63, 255 The on/off duration is controlled by the "txTestModeSec" and "txTestModeUsec"
This mode is entered based on the testMode flash configuration setting. This mode is persistent across boots. UNIL is initialized to pass-through mode. The meter software layer is not initialized. Same as mode 3 except the flash testMode setting is persistent across boots. To exit this mode, the test mode configuration setting must be set to another value which will take effect on eMCM reset. parameters in the configuration file. A.5 Persistent Node RF Test Mode 4 A.6 Non-Persistent Manufacturing Cal Mode 5 A.7 Persistent Manufacturing Cal Mode 6 This mode is entered based on the testMode flash configuration setting. This mode is not persistent across boots (self-clearing). UNIL is initialized normally so that it communicates with the Node. The meter software layer is not initialized. The UART on the AMR serial interface is not initialized or used. Same as mode 6 except the flash testMode setting is automatically cleared to mode 0 when entering this mode. A subsequent "set test mode" command can set the cleared value to some other test mode value. This mode is entered based on the testMode flash configuration setting. This mode is persistent across boots. UNIL is initialized normally so that it communicates with the Node. The meter software layer is not initialized. The UART on the AMR serial interface is not initialized or used. Same as mode 5 except the flash testMode setting is persistent across boots. To exit this mode, the test mode configuration setting must be set to another value which will take effect on eMCM reset. On-Ramp Wireless Confidential and Proprietary 22 014-0057-00 Rev. B RF Test Mode Interface TRN-2013 Integration Specification A.8 Non-Persistent Meter Diagnostic Mode (Not Yet Implemented) This mode is entered based on a flash configuration setting. This mode is not persistent across boots (self-clearing). UNIL is initialized normally so that it communicates with the Node. The meter software layer is initialized and communication to the meter is tested and validated. If communication with either the Node or the meter fails (or any other error condition detected), then the red LED is blinked with an error code indefinitely (or until the deployment mode LED timer expires). If no errors are detected, the green LED is blinked normally to indicate network connection state (scanning, joined, etc.). A reset is required to recover. Note: this mode may not be needed if a basic diagnostic or POST check is done by the eMCM as part of its initialization process. A.9 Setting eMCM to Test Mode 1 - Non-Persistent Idle Factory Test Mode How to Enter Set the 'testMode' flag in the configuration file to one. Example:
./emcm_set_cfg.py -d /dev/ttyS0 --testMode=1 Reset the eMCM to take effect. Example:
./emcm_dev_reset.py -d /dev/ttyS0 --emcm How to Exit Because this mode is non-persistent, it can be exited via an eMCM reset. Reset the eMCM to exit the test mode. By default, the eMCM will return to normal operational mode 0 after reset unless another mode was explicitly specified with the emcm_set_cfg.py command prior to resetting. Example:
./emcm_dev_reset.py -d /dev/ttyS0 --emcm If a different mode is desired upon reset, explicitly Description UNIL is in pass-through mode. Meter UART is in loopback mode. AHP debug port is functional. Mode is not persistent after resets. On-Ramp Wireless Confidential and Proprietary 23 014-0057-00 Rev. B TRN-2013 Integration Specification A.10 Setting eMCM to Test Mode 2 - Persistent Idle Factory Test Mode How to Enter Set the 'testMode' flag in the configuration file to two. RF Test Mode Interface Example:
./emcm_set_cfg.py -d /dev/ttyS0 --testMode=2 Reset the eMCM to take effect. Example:
./emcm_dev_reset.py -d /dev/ttyS0 --emcm How to Exit Because this mode is persistent, it will remain in effect across eMCM resets. Set the 'testMode' flag to the new desired mode, e.g., normal operational mode 0. Example:
./emcm_set_cfg.py -d /dev/ttyS0 --testMode=0 Reset the eMCM for the new mode to take effect. Example:
./emcm_dev_reset.py -d /dev/ttyS0 --emcm Description UNIL is in pass-through mode. Meter UART is in loopback mode. AHP debug port is functional. Mode is persistent across resets. A.11 Setting eMCM to Test Mode 3 - Non-Persistent RF Test Mode How to Enter Set the 'testMode' flag in the configuration file to three. Example:
./emcm_set_cfg.py -d /dev/ttyS0 --testMode=3 Reset the eMCM to take effect. Example:
./emcm_dev_reset.py -d /dev/ttyS0 --emcm How to Exit Because this mode is non-persistent, it can be exited via an eMCM reset. Reset the eMCM to exit the test mode. By default, the eMCM will return to normal operational mode 0 after reset unless another mode was explicitly specified with the emcm_set_cfg.py command prior to resetting. Example:
./emcm_dev_reset.py -d /dev/ttyS0 --emcm If a different mode is desired upon reset, explicitly On-Ramp Wireless Confidential and Proprietary 24 014-0057-00 Rev. B TRN-2013 Integration Specification RF Test Mode Interface Description UNIL is partially operational. Meter UART is disabled. AHP debug port is functional. Mode is not persistent after resets. A.12 Setting eMCM to Test Mode 4 - Persistent RF Test Mode How to Enter Set the 'testMode' flag in the configuration file to four. Example:
./emcm_set_cfg.py -d /dev/ttyS0 --testMode=4 Reset the eMCM to take effect. Example:
./emcm_dev_reset.py -d /dev/ttyS0 --emcm How to Exit Because this mode is persistent, it will remain in effect across eMCM resets. Set the 'testMode' flag to the new desired mode, e.g., normal operational mode 0. Example:
./emcm_set_cfg.py -d /dev/ttyS0 --testMode=0 Reset the eMCM for the new mode to take effect. Example:
./emcm_dev_reset.py -d /dev/ttyS0 --emcm Description UNIL is partially operational. Meter UART is disabled. AHP debug port is functional. Mode is persistent across resets. On-Ramp Wireless Confidential and Proprietary 25 014-0057-00 Rev. B Appendix B REACH Compliance Statements On-Ramp Wireless Confidential and Proprietary 26 014-0057-00 Rev. B TRN-2013 Integration Specification REACH Compliance Statements On-Ramp Wireless Confidential and Proprietary 27 014-0057-00 Rev. B Appendix C Abbreviations and Terms Abbreviation/Term AGC ALC AMI AMR AP API ASIC BOM BW CMOS CPOL CPU DFS DPLL EMC ESD EVM FCC FER GND GPIO HBM IC IIP3 LDO LNA LO microNode MISO MM MOSI MRQ MSL Node NPT Definition Automatic Gain Control Automatic Level Control Advanced Metering Infrastructure Automatic Meter Reading Access Point (this product) Application Programming Interface Application-Specific Integrated Circuit Bill of Materials Bandwidth Complementary Metal-Oxide-Semiconductor Clock Polarity (for SPI) Central Processing Unit Dynamic Frequency Selection Digital Phase-Locked Loop Electromagnetic Compatibility Electrostatic Discharge Error Vector Magnitude Federal Communications Commission Frame Error Rate Ground General Purpose Input/Output Human Body Model Industry Canada Input Third-Order Intercept Point Low Drop Out Low Noise Amplifier Local Oscillator The second generation of the On-Ramp Wireless module that communicates sensor data to an Access Point. The microNode forms the basis for On-Ramp Wireless Total Reach Network communications with the TRN-2013 product. Master Input, Slave Output Machine Model Master Output, Slave Input Master Request Moisture Sensitivity Level The generic term used interchangeably with eNode, microNode, or dNode. Node Provisioning Tools On-Ramp Wireless Confidential and Proprietary 28 014-0057-00 Rev. B TRN-2013 Integration Specification Abbreviations and Terms Definition On-Ramp Wireless proprietary wireless communication technology. Over-the-Air Power Amplifier Peak-to-Average Power Ratio Printed Circuit Board Power On Reset Quality of Service Radio Frequency Radio Frequency Integrated Circuit Restriction of Hazardous Substances Receive Signal Strength Indicator Remote Terminal Real Time Clock Receive/Receiver Serial Clock Surface Mount Technology Signal-to-Noise Ratio Synchronous Peripheral Interface Slave Ready Slave Request On-Ramp Wireless AMI circuit board (PCB). An MCM for ANSI meters with an internal antenna but does not contain Zigbee. Transmit/Transmitter Universal Asynchronous Receiver/Transmitter Voltage Controlled Oscillator Voltage Controlled Temperature Compensated Crystal Oscillator Voltage Standing Wave Ratio Crystal Oscillator Abbreviation/Term On-Ramp Wireless Total Reach OTA PA PAPR PCB POR QoS RF RFIC RoHS RSSI RT RTC RX SCLK SMT SNR SPI SRDY SRQ TRN-2013 TX UART VCO VCTCXO VSWR XO On-Ramp Wireless Confidential and Proprietary 29 014-0057-00 Rev. B Appendix D TRN-2013 Mechanical Drawing and Schematics On-Ramp Wireless Confidential and Proprietary 30 014-0057-00 Rev. B TRN-2013 Integration Specification TRN-2013 Mechanical Drawing and Schematics Figure 8. Mechanical Dimensions for TRN-2013 On-Ramp Wireless Confidential and Proprietary 31 014-0057-00 Rev. B TRN-2013 Integration Specification TRN-2013 Mechanical Drawing and Schematics Figure 9. TRN-2013 board schematic, page 1 On-Ramp Wireless Confidential and Proprietary 32 014-0057-00 Rev. B TRN-2013 Integration Specification TRN-2013 Mechanical Drawing and Schematics Figure 10. TRN-2013 schematic, page 2 On-Ramp Wireless Confidential and Proprietary 33 014-0057-00 Rev. B TRN-2013 Integration Specification TRN-2013 Mechanical Drawing and Schematics Figure 11. TRN-2013 schematic, page 3 On-Ramp Wireless Confidential and Proprietary 34 014-0057-00 Rev. B TRN-2013 Integration Specification TRN-2013 Mechanical Drawing and Schematics Figure 12. TRN-2013 schematic, page 4 On-Ramp Wireless Confidential and Proprietary 35 014-0057-00 Rev. B TRN-2013 Integration Specification TRN-2013 Mechanical Drawing and Schematics Figure 13. TRN-2013 schematic, page 5 On-Ramp Wireless Confidential and Proprietary 36 014-0057-00 Rev. B
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2013-06-14 | 2402 ~ 2475.63 | DSS - Part 15 Spread Spectrum Transmitter | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2013-06-14
|
||||
1 | Applicant's complete, legal business name |
Ingenu
|
||||
1 | FCC Registration Number (FRN) |
0019285519
|
||||
1 | Physical Address |
10301 Meanley Drive
|
||||
1 |
San Diego, California 92131
|
|||||
1 |
United States
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
n******@babt.com
|
||||
1 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
XTE
|
||||
1 | Equipment Product Code |
TRN-2013
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
E****** L****
|
||||
1 | Title |
SR. DIRECTOR, ENGINEERING PROGRAM MANAGEMENT
|
||||
1 | Telephone Number |
619-5********
|
||||
1 | Fax Number |
858-5********
|
||||
1 |
e******@ingenu.com
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | If so, specify the short-term confidentiality release date (MM/DD/YYYY format) | 11/30/2013 | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DSS - Part 15 Spread Spectrum Transmitter | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Meter Communication Module | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | Single Modular Approval. Power Output is peak conducted. This module must only be installed by the OEM or an OEM integrator. This device and its antenna(s) must not be co-located or operated in conjunction with any antenna or transmitter not described under this FCC id, except in accordance with FCC multi-transmitter product procedures | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
TUV SUD America, Inc.
|
||||
1 | Name |
C******** F******
|
||||
1 | Telephone Number |
1-858********
|
||||
1 | Fax Number |
1-858********
|
||||
1 |
c******@tuvam.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 2402.00000000 | 2475.63000000 | 0.1300000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC