Access Point Product 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, Inc. The recipient of this document shall respect the security of this document and maintain the confidentiality of the information it contains.
On-Ramp Wireless, Inc. 10920 Via Frontera, Suite 200 San Diego, CA 92127 U.S.A. Copyright © 2015 On-Ramp Wireless, Inc. 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, Inc. The recipient of this document shall respect the security of this document and maintain the confidentiality of the information it contains.
Contents 1 Introduction ........................................................................................................................ 1 1.1 AP Product Configurations .................................................................................................... 1 1.2 References ............................................................................................................................ 2 2 Product Specification Overview .........................................................
Access Point Product Specification Contents Figures Figure 1. Access Point ................................................................................................................ 1 Figure 2. AP Radio Block Diagram for FCC/IC ............................................................................. 7 Figure 3. AP Radio Block Diagram for ETSI/Japan ....................................................................... 8 Figure 4. Spectral Shape—Linear and Compressed ...........................
Revision History Revision Release Date Change Description A October 10, 2011 Initial release. B November 2, 2011 Updated with information for operating at the ETSI RFID configuration for the Access Point. C April 13, 2012 Updated product specifications, regulatory certifications, lightning/ESD test compliance, transmitter information, and antenna requirements. Also added Access Point mechanical drawing.
1 Introduction This document provides an overview of the Access Point and is shown below. It also provides product specifications, characteristics, and requirements for the Access Point (AP). Figure 1. Access Point 1.1 AP Product Configurations The following AP product configurations are currently available for worldwide markets. The Element Management System (EMS) software is used during network configuration and setup of the AP.
Access Point Product Specification Introduction does not have an internal cavity filter. It is EMC compliance certified to ETSI-301-489 and ETSI-300-440. 5. ETSI RFID Configuration (Model: ULPAPE100) The ETSI Radio Frequency Identification (RFID) configuration is limited to 10 dBm conducted transmit power, up to 27 dBm EIRP, with three channels available (24462454MHz). This configuration does not have an internal cavity filter.
2 Product Specification Overview 2.1 AP Product Specifications The following table provides basic specification information for the AP. Table 1. Basic AP Specifications Size Inches: Millimeters: 9.1”H x 8.1”W x 4.5”D 232mm H x 202mm W x 111mm D Maximum Weight Pounds: Kilograms: 9.6 4.
Access Point Product Specification Product Specification Overview Requirement Description Requirement Comments Operating Temperature Range* -40C – +80C Ambient, not including solar loading Operating Temperature Rate of Change* -10C – +40C Constant rate of change measured over 1 hour. Storage Temperature Range* -40C – +85C Humidity** 5% – 95% Non-condensing ESD, EN 61000-4-2 + 16.5 kV Air Discharge + 9 kV Contact Discharge On any exposed point of an installed product.
Access Point Product Specification Product Specification Overview Requirement Description Requirement Comments Link Current Consumption 0.35A maximum @ 48 VDC See section 3.3 for details. GPS Power 3.3 VDC @ 50 mA maximum over coaxial cable DC power supplied on GPS RF connector. 3.3 5 Transmitter Related Transmit Power Range 0 – 16 dBm (LP) 16 – 30 dBm (HP) Referenced to AP N-connector. Switchover point (16 dBm) is approximate.
Access Point Product Specification Requirement Description Product Specification Overview Requirement Comments Link Receiver Related Receive Sensitivity: FCC/IC (with cavity filter) ETSI/Japan (no cavity filter) -140 dBm -142 dBm Referenced to AP N-connector Maximum Receive Signal Level -30 dBm Referenced to AP N-connector Noise Figure 7 dB nominal < 8 dB maximum Referenced to AP N-connector, FCC configuration (including CF) Synthesizer Related Precision Reference Frequency 26 MHz High stab
SPDT Switch FE Match Cable Cavity Filter Customer Cable SPDT Switch SPDT Switch Chip LPF Maxim 2830 Chip LPF N type PA Cable Box TX Balun Chip LPF SMA Tee Pad SMA Product Specification Overview SMA Access Point Product Specification RX Balun-BPF Figure 2.
Access Point Product Specification Product Specification Overview Dual Latency AP High Capacity Chip PA LPF TX SPDT SPDT FE Balun Switch Switch Match RF Transceiver 26MHz 2400MHz Chip SPDT LPF Switch N type LPF SMA Chip Cable Box Base Band #1 Tee Pad 30dBm/ Channel RX Diplexer Balun - BPF CH2 Chip Pad LPF Low Latency Chip PA LPF TX SPDT SPDT FE Balun Switch Switch Match RF Transceiver 26MHz 2400MHz Chip SPDT LPF Switch N type Tee Cable Box Base Band #2
3 Electrical Characteristics 3.1 Power over Ethernet (PoE) The nominal 48VDC on the Ethernet cable is separated from the data and regulated with a switching power supply to 5.0VDC. This printed circuit board is equipped with lightning protection, surge protection, and differential and common mode filtering. It also includes a tamper protection device that will report to the system if the box cover has been opened. NOTE: The AP is not 802.3AF or 802.3AT compliant.
Access Point Product Specification Electrical Characteristics 3.3 Current and Power Consumption Typical current and power consumption for the AP, in different modes with a 48VDC PoE power supply, is listed in the following table. NOTE: Overdriven power is not normally encountered but can be seen in Test Mode if TXGAIN is pushed too hard. It is listed here for informational purposes. Table 5.
4 Compliance Certifications 4.1 FCC/IC Certification The compliance tests for FCC and IC certification are listed below. Table 6. FCC and IC Compliance Tests for Certification Paragraph Test Conducted/Radiated 15.207(a) DC and/or AC Powerline Conducted Emission Powerline Conducted 15.215© TX 20dB Bandwidth RF Conducted RSS210e TX 99% Bandwidth RF Conducted 15.247(a)(2) TX 6 dB Bandwidth RF Conducted 15.247(b)(1) TX Peak Output Power RF Conducted 15.
Access Point Product Specification Compliance Certifications 489-2: Clause Test 8.7 Conducted Emissions (Telecom port) 9.2 Radiated Immunity 9.3 ESD 9.4 Fast Transient Burst Immunity 9.5 RF Common Mode 9.7 Voltage Dips & Interruptions 9.8 Voltage Surges 4.3 ETSI RFID Certification The ETSI RFID certification is based on EN 300-440-2 V1.4.
Access Point Product Specification Compliance Certifications The compliance tests for ETSI RFID that are unique to the RFID version are listed below. All tests performed on the standard ETSI model also apply to the ETSI RFID model unless otherwise stated. Table 10. ETSI RFID Emissions EN 300-440-2 V1.4.1 Compliance Tests for Certification EN 300 440-2 Section Test 4.2.1.4 Duty Cycle 4.2.2.1 Adjacent channel selectivity-in-band 4.2.3 Tests for RFID Systems at 2.45 GHz 4.2.
5 GPS In normal operation, the AP requires Global Positioning System (GPS) synchronization. The GPS connector of the AP receives signals from its externally mounted antenna. The AP also supplies approximately 3.3 VDC at up to 50 mA through the RF connector for best GPS reception. No additional external DC connections are required. There is an internal current limit function that is designed to limit the available current in the range of 100 mA to 150 mA.
6 Transmitter Information 6.1 Transmit Spectral Shape The spectrum shape of the AP can be described as similar to the Global System for Mobile Communications (GSM) which uses Gaussian Minimum Shift Keying (GMSK) but with a 1 MHz signal passband instead of the 200 kHz for GSM. Spectral side lobes are present even when the transmitter is in the linear range. As the Power Amplifier (PA) goes into compression (starting around 25 dBm) the main lobe compresses inward while the side lobes increase in amplitude.
7 Hardware Requirements 7.1 Antenna Requirements For the main antenna the exact model(s) are part of the compliance testing and are required to be used to avoid EMC non-conformance. In some cases if customers use a different antenna and it is the same radiation type (monopole, sector, etc.) and is of equal or lower gain, nonconformance is avoided. The exact requirements are specific to each market.
Access Point Product Specification GPS Antenna Hardware Requirements Manufacturer Part Number Gain Comment PCTEL GPSL1-TMG-SPI-40NCB 40 dBic N-type connector, active gain, lightning protection Table 16. Antennas for Japan Configuration Main Antenna GPS Antenna Manufacturer Part Number Gain Comment L-Com HGV-2404U 4 dBi Limited to 8 dBm conducted TX 40 dBic N-type connector, active gain, lightning protection PCTEL GPSL1-TMG-SPI-40NCB 7.
Appendix A Access Point Mechanical Drawing Figure 7. Access Point Mechanical Drawing 18 014-0030-00 Rev.
Appendix B Abbreviations and Terms Abbreviation/Term Definition ACPR Adjacent Channel Power Ratio AP Access Point. The RPMA network component geographically deployed over a territory. CPU Central Processing Unit DSSS Direct-Sequence Spread Spectrum EIRP Effective Isotropic Radiated Power. This is conducted RF power (in dBm) plus antenna gain (in dBi).