Zebra Technologies 211486030B 21-148603-0B User Manual
Zebra Technologies Corporation 21-148603-0B
Contents
- 1. User Manual
- 2. Host User Guide
- 3. Host User Guide Regulatory
User Manual
148603 Project Document Motorola Solutions Inc. Title: 148603 Specification and Integration Guide Description/Abstract/Synopsis: The purpose of this document is to provide an integration guide targeted for module integrators who have an NDA with Motorola Solutions. Document Status: In Progress [ ] – Released Version [ ] – Next Release In Process MPA Document Number: [ ] – Document Obsolete Division: Sub-team: NA Obsolete Document Replaced By: Working Revision: MCD RF-SYS 20110610-i Document Type: SPEC / IG Last Updated: 01/18/2012 N/A Confidentiality Statement: Classification: N/A [] - Contains Motorola Solutions partner NDA related material (Disclosure requires a three-way NDA.) Partner Name Agreement Number USI Under NDA and Motorola Corporate Supply Agreement between Motorola Solutions and USI [] - For Motorola Solutions Internal Use Only [ x] - Disclosure allowed under Motorola Solutions NDA Only [x] - Does or may contain Motorola Solutions patentable property *** Direct this document‟s disclosure inquires to (Job Title): TNT Archive Location/Path: Agile Current Owner: Authors / Contributors: Revision History Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. 20110610-i "Nickel Leuc oc hroic Puffi n" 148603 Project Document Rev # Author Date Notes Supporting or Reference Documentation MPA or Motorola Solutions Document Number Title Release Signatures Required Divisional Role Motorola Solutions Associate Copyright Information No part of this document may be reproduced, stored in or introduced into a retrieval system, or transmitted in any form or by any means (electronic, mechanical, photocopying, recording, or otherwise) for any purposes, without the express written permission of Motorola Solutions, Inc. Motorola Solutions, Inc. may have patents, patent applications, trademarks, copyrights, or other intellectual property rights covering subject matter in this document. Except as expressly provided in any written license agreement from Motorola Solutions, Inc., the furnishing of this document does not give you any express or implied rights to these patents, trademarks, copyrights, or other intellectual property. © 2011 Motorola Solutions, Incorporated. All rights reserved. Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. 20110610-i "Nickel Leuc oc hroic Puffi n" ii MPA Project Document Table of Contents 1. 2. INTRODUCTION 1.1. BACKGROUND 1.2. GENERAL NOTE 1.3. PURPOSE 1.4. PART NUMBERS ARCHITECTURE 2.1. WLAN 2.1.1. HOST COMMUNICATIONS 2.2. BLUETOOTH 2.3. GPS 2.4. POWER SUB-SYSTEM 3. 4. 5. SIGNAL DESCRIPTIONS 10 3.1. SIGNAL DESCRIPTIONS 10 3.1. PIN LAYOUT 13 DESIGN GUIDELINES AND RECOMMENDATIONS 14 4.1. TYPICAL APPLICATION SCHEMATIC 14 4.2. HOST PCB LAYOUT RECOMMENDATIONS 17 HOST REQUIREMENTS 18 5.1. ELECTRICAL POWER 18 5.2. ENVIRONMENTAL 18 5.2.1. ABSOLUTE MAXIMUM RATINGS 18 5.2.2. NORMAL OPERATING CONDITIONS 19 5.4. TIMING REQUIREMENTS 21 5.4.1. POWER UP TIMING 21 5.4.1.1. WLAN 21 5.4.1.2. BT/GPS/FM 21 5.4.2. 22 SDIO TIMING REQUIREMENTS 5.4.2.1. SDIO DATA SWITCHING CHARACTERISTICS 22 5.4.2.2. SDIO DATA SWITCHING CHARACTERISTICS 22 5.4.2.3. SDIO SWITCHING CHARACTERISTICS 23 5.5. 24 ANTENNA REQUIREMENTS Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. 20110610-i "Nickel Leuc oc hroic Puffi n" MPA Project Document 6. 7. 5.5.1. WLAN 24 5.5.2. BT 24 5.5.3. GPS 25 MODULE SPECIFICATIONS 26 6.1. POWER CONSUMPTION 26 6.1.1. WLAN POWER CONSUMPTION 27 6.1.2. BT POWER CONSUMPTION 28 6.1.3. GPS POWER CONSUMPTION 28 APPENDIX 29 7.1. RECOMMENDED HOST PCB PASTEMASK 29 7.2. MECHANICAL INTERFACE DRAWING 30 7.3. REGULATORY 30 7.3.1. CE REGULATIONS 30 7.3.2. FCC REGULATIONS 31 7.3.3. IC REGULATIONS 33 Table of Figures Figure 1 - Pin Map Figure 2 – TOP VIEW Recommended Option 3) Solid ground beneath the specific module areas Figure 3 - Recommended host PCB PasteMask 13 17 29 Table of Tables Table 1 - Module Part Numbers and Description ............................................................ 6 Table 2 – Signal Descriptions........................................................................................ 10 Table 3 - Typical Application Schematic BOM .............................................................. 15 Table 4 - Absolute Maximum Ratings............................................................................ 18 Table 5 - Normal Operating Conditions ......................................................................... 19 Table 6 - Slow Clock Requirements .............................................................................. 20 Table 7 - SDIO Single Block Read ................................................................................ 22 Table 8 - SDIO Interface Read ...................................................................................... 22 Table 9 - SDIO Single Block Write ................................................................................ 22 Table 10 -SDIO Interface Write ..................................................................................... 22 Table 11 – SDIO Timing ................................................................................................ 23 Table 12 - SDIO Timing................................................................................................. 23 Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. 20110610-i "Nickel Leuc oc hroic Puffi n" MPA Project Document Table 13 - WLAN Antenna Requirements ..................................................................... 24 Table 14 - Bluetooth Antenna Requirements ................................................................ 24 Table 15 - GPS Antenna Requirements ........................................................................ 25 Table 16 - Hardware Low Power Mode - Module Shutdown (SDWN) Current Draw ..... 26 Table 17 - BT Power Consumption ............................................................................... 28 Table 18 - GPS Power Consumption ............................................................................ 28 Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. 20110610-i "Nickel Leuc oc hroic Puffi n" 148603 Project Document 1. Introduction 1.1. Background 148603 is a radio module that will provide Wireless Local Area Network (WLAN) Bluetooth, GPS and FM features to Motorola Solutions‟ EMS products. NOTE: FM is DISABLED in all revisions, and WLAN RF0 Path is not populated in the -01 and -02 versions. 1.2. General Note This is a living document. Some descriptions are based on the current phase of the 148603 module design program. Changes to this document will occur without direct notification to its users. Users who wish to have the latest information should coordinate with the module team leader. The terms “preferred” and “recommend” are used throughout this document. Preferred can be thought of as a “nice-to-have” or “ingood practice”. The term “recommendation” should be taken as a stronger implementation guideline where if not implemented performance degradation may occur. 1.3. Purpose The purpose of this document is to provide a guide targeted for module integrators who have an NDA with Motorola Solutions. 1.4. Part Numbers Part Number SKU 21-148603-01 Diversity version with WLAN and BT on SHARED RF paths 21-148603-02 Diversity version with WLAN and BT on SEPARETE RF paths 21-148603-03 NON-Diversity version with WLAN and BT on a SHARED RF path 21-148603-04 NON-Diversity version with WLAN and BT on SEPARETE RF paths Table 1 - Module Part Numbers and Description 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 6 of 36 148603 Project Document 2. Architecture 2.1. WLAN 2.1.1. Host Communications The WLAN core requires a total of eight (8) dedicated signals in order to communicate to the host processor. The WLAN core is enabled via the WL_EN signal (1) and communicates to the host processor via SDIO (6) with an additional interrupt signal WL_IRQ(1). 2.1.1.1. Hardware Interface The interface between the host and the 148603 Module is a standard SDIO interface (see SDIO spec version 2.0), supporting maximum clock rate of 52MHz. The WL1281/3 SDIO also supports the following features: • Both 1 and 4 bit data bus • Abort command • Multi-Block data transfer • The SDIO interface is used for WLAN IP only. • The SDIO interface supports High Speed protocol. 2.2. Bluetooth 2.2.1. Host Communications The Bluetooth subsystem requires nine (9) connections to the host in order for full operation, including PCM (4), High-Speed UART (4) and BT_GPS_FM_EN (1) , which shall be connected to the host to enable the Bluetooth IP. It should also be noted that an additional line from the WL1283 can be used for debug purposes, namely BT_UART_DBG. 2.2.1.1. Hardware Interface 2.2.1.1.1. HCI UART Transport layers The HCI UART Supports 4-wire UART interface to host. Supports most baud rates for all fast clock frequencies, up to a maximum of 4Mbps. Default baud rate after power up is 115.kkbps with a deviation of +1.5%, -2.5%, until baud is changed via a vendor specific command. 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 7 of 36 148603 Project Document BT_GPS_FM_TX BT_GPS_FM_RX BT_GPS_FM_RTS BT_GPS_FM_CTS 2.2.1.1.2. PCM Audio PCM audio interface to the host uses the following signals: In Slave mode, input frequencies up to 16MHz supported. In master mode, the TI1283 can generate any clock frequency between 64KHz and 4.096MHz. BT_PCM_OUT BT_PCM_IN BT_PCM_SYNC BT_PCM_CLK The BT Audio Codec has a fully dedicated programmable serial port o Two voice channels o Supports Master/slave modes o u-law, a-law, linear and transparent coding schemes o Long and short frames o Different data sizes, order and positions o UDI profile o High rate PCM 2.2.2. Power Class 148603 supports up to Power Class 1.5 Operation. 2.2.3. 148603 BT RF Paths The 148603 design will be the first internal module to integrate a PTA and selection diversity antenna structure over the same RF paths. Due to the development cycle and schedule, at the time of the release of the module‟s engineering design, this timing was not fully understood. Consequently, the 148603 team designed in a provision that would allow the BT RF to be available through a separate RF port. Should this population option need to be used, external matching and filtering would be required and support from the 148603 module team should be sought when implementing this option. IMPORTANT NOTE: A tradeoff performance evaluation is currently being conducted to demonstrate the ability to break-out the BT RF from the WL1283 to the 148603 Module pins, bypassing the FEM and disabling PTA. 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 8 of 36 148603 Project Document 2.3. GPS The GPS hardware interface shares the BT UART hardware interface as described in Section Error! Reference source not found.. On power up, the core is disabled by default and will remain in this state until host enables it by setting BT_GPS_FM_EN and writing Vendor Specific commands to turn on GPS via the shared transport. 2.4. Power Sub-System The 148603 requires two external voltage sources a VBAT=3.3V nominal and a VIO=1.8V nominal. The VBAT is used to supply voltage to the SoC, FEM, and antenna selection control logic. The VIO is used to supply voltage to the SoC and provide level detection to the antenna switch control logic. The SoC incorporates an internal 1.8V that is used to supply the internal Soc 1.8V rail as well as power to the 26MHz TCXO. 2.5. Internal Clock Frequencies The 148603 has on-module TCXO operating at 26MHz 2.5.1. WLAN WLAN has an Zero-IF architecture and thus the LO operates at ~10GHz that is divided by 2 for 5G Band operation and divided by 4 for 2.4GHz Band operation. 2.5.2. BT The TCXO is used to produce the relevant BT channel, between 2.402G to 2.480GHz. The ADPLL produces the frequencies between 4.804GHz to 4.96GHz, which divided by 2 to provide the BT frequencies. 2.5.3. GPS The LO frequency for GPS is 1579.5MHz. 2.5.4. FM The FM IP generates the FM station frequency from the divided FREF clock or by the 32K clock. It is generated by the Synthesizer and ADPLL. The FM channel frequency band is between 76-108MHz (Europe and Japan). NOTE: FM is DISABLED. 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 9 of 36 148603 Project Document 3. Signal Descriptions 3.1. Signal Descriptions Listed below are the pin numbers and signals on the 148603 module. GEN = General (No specific function), PWR= Power Supply, ANA= Analog NOTE: FM is DISABLED in all revisions, and WLAN RF0 Path is not populated in the -01 and -02 versions. Table 2 – Signal Descriptions PIN DEFINE REV 0.02 SD State Default State (after POR) Module Pin Name Pin I/O Type Function Connects to Buffer [mA] VBAT1 68 PWR GEN PWR VBAT 3.3V Input VBAT2 69 PWR GEN PWR VBAT 3.3V Input VBAT3 70 PWR GEN PWR VBAT 3.3V Input VBAT4 71 PWR GEN PWR VBAT 3.3V Input VIO1 16 PWR GEN PWR VIO 1.8V Digital Voltage VIO2 17 PWR GEN PWR VIO 1.8V Digital Voltage GND1 GND GEN GND Ground Pin GND3 GND GEN GND Ground Pin GND4 10 GND GEN GND Ground Pin GND5 11 GND GEN GND Ground Pin GND6 13 GND GEN GND Ground Pin GND7 14 GND GEN GND Ground Pin GND8 15 GND GEN GND Ground Pin GND9 18 GND GEN GND Ground Pin GND10 23 GND GEN GND Ground Pin GND11 30 GND GEN GND Ground Pin GND12 33 GND GEN GND Ground Pin GND13 36 GND GEN GND Ground Pin GND14 38 GND GEN GND Ground Pin GND15 41 GND GEN GND Ground Pin GND16 43 GND GEN GND Ground Pin GND17 46 GND GEN GND Ground Pin GND18 48 GND GEN GND Ground Pin GND19 50 GND GEN GND Ground Pin GND20 54 GND GEN GND Ground Pin GND21 60 GND GEN GND Ground Pin GND22 67 GND GEN GND Ground Pin 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" Description 20110610-i 10 of 36 148603 Project Document GND23 72 GND GEN GND Ground Pin GND_H 73 GND GEN GND Ground Pin Heat Sink Pad WL_EN 32 IN WLAN HOST SDIO_CLK 25 IN WLAN HOST PD PD N/A HiZ HiZ HiZ HiZ 8/6/4/2 HiZ HiZ 8/6/4/2 PD HiZ 8/6/4/2 HiZ HiZ 8/6/4/2 HiZ HiZ 8/6/4/2 WLAN IP enable (0=not active, 1=host enable WLAN IP) WLAN SDIO clock. Place signal conditioning resistor on SDIO_CLK close to host processor SDIO command in. SDIO lines must be pulled up by the host. SDIO data bit 0. SDIO lines must be pulled up by the host. SDIO data bit 3. SDIO lines must be pulled up by the host. WLAN SDIO data bit 1. SDIO lines must be pulled up by the host. WLAN SDIO data bit 2 . SDIO lines must be pulled up by the host. SDIO_CMD 24 I/O WLAN HOST SDIO_D0 26 I/O WLAN HOST SDIO_D3 28 I/O WLAN HOST SDIO_D1 29 I/O WLAN HOST SDIO_D2 27 I/O WLAN HOST WLAN_IRQ 58 OUT WLAN HOST PD Drive 0 WLAN Interrupt out. Active low. WL_RS232_TX 66 OUT WLAN DEBUG PU Drive 1 RTT tool UART output WL_RS232_RX 65 IN WLAN DEBUG PU PU RTT tool UART input WL_UART_DBG 57 OUT WLAN DEBUG PU Drive 1 WLAN Logger output UART output JTAG_TMS 62 IN WLAN DEBUG PU PU JTAG Test Mode State Input JTAG_TDO 61 OUT WLAN DEBUG PU Drive 1 JTAG Test Data Out Output JTAG_TDI 64 IN WLAN DEBUG PU PU JTAG Test Data In Input JTAG_TCK 63 IN WLAN DEBUG PD PD JTAG Test Clock Input RF2 RF WLAN/BT ANT Default WLAN RF Port (Shared with BT using -01 Module Configuration) 50Ω Termination if not used. RF RF1 12 RF WLAN/BT ANT RF RF0 RF GEN GND RF Auxiliary WLAN RF Port (Shared with BT using -01 Module Configuration) 50Ω Termination if not used. Diversity Bypass Path. WLAN RF Port (Shared with BT using -03 Module Configuration) This path is mutually exclusive with RF1 and RF2. RF0 Path is not populated in the -01 and -02 versions. 50Ω Termination if not used. PD* PD* Bluetooth IP enable (0=not active, 1= host enable Bluetooth IP (GPS and FM active through VS commands) BT_GPS_FM_EN 53 IN HOST BT/GPS/FM N/A BT_GPS_FM_TX 19 OUT BT/GPS/FM HOST PU Drive 1 HCI UART transmit output BT_GPS_FM_RX 20 IN BT/GPS/FM HOST PU PU BT_GPS_FM_CTS 21 IN BT/GPS/FM HOST PU PU HCI UART receive input HCI UART clear to send input (active low) BT_GPS_FM_RTS 22 OUT BT/GPS/FM HOST PU Drive 1 HCI UART request to send (active low). Signal IRQ asserted until cleared by host. 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 11 of 36 148603 Project Document BT_PCM_CLK I/O BT HOST PD PD 8/6/4/2 Bluetooth PCM clock in or out. Data can be driven out on rising edge or falling edge. Data can be sampled on rising edge or falling edge. BT_PCM_SYNC I/O BT HOST PD PD 8/6/4/2 Bluetooth PCM frame sync in or out. BT_PCM_IN IN BT HOST PD PD 8/6/4/2 Bluetooth PCM data. BT_PCM_OUT OUT BT HOST PD PD 8/6/4/2 Bluetooth PCM Data out. BT RF Port (Using -02 Module Configuration) 50Ω Termination if not used BT_RF 49 RF BT ANT RF BT_UART_DBG OUT BT DEBUG PU PU BT Logger output UART output GPS_TIMESTAMP 56 IN GPS WWAN/ HOST PD PD Time stamp from cellular clock or any reference clock used to calibrate TCXO GPS_PA_EN 55 IN GPS WWAN PD PD GPS PA enable can be used for possible WWAN coexistence. This input will "blank-out" GPS signal in the case where there is known jamming from WWAN module. GPS_PPS_OUT 52 OUT GPS HOST PD PD GPS Pulse per second strobe output GPS_EXT_LNA_EN 51 OUT GPS GPS PD PD GPS External LNA Enable output GPS_RF 42 RF GPS ANT RF GPS RF input port 50Ω Termination if not used. FM_RF_IN_P 37 RF FM ANT RF FM 50Ω Receive RF Input Port. 180nH external serial inductor required. 50Ω Termination if not used. FM_RF_OUT_P 34 RF FM ANT RF FM Transmit RF Plus Differential Output Port. No Connect if not used FM_RF_OUT_M 35 RF FM ANT RF FM Transmit RF Minus Differential Output Port. No Connect if not used ANA FM Audio Left Input Requires external serial 0.22uF cap if used. GND if not used. ANA FM Audio Right Input Requires external serial 0.22uF cap if used. GND if not used. ANA FM Audio Left Output Requires external serial 0.22uF cap if used. No Connect if not used FM_AUD_IN_L FM_AUD_IN_R FM_AUD_OUT_L 40 39 44 ANA ANA ANA FM FM FM HOST HOST HOST FM_AUD_OUT_R 45 ANA FM HOST ANA FM Audio Right Output Requires external serial 0.22uF cap if used. No Connect if not used SLOW_CLK 47 ANA GEN HOST ANA 32.768KHz Slow CLK input. See Sec. 0 GPIO_WL_BT_N7 31 I/O GEN TP PD PD Spare GPIO. Can be used by the WL and BT IP's GPIO_WL_BT_GPS_M8 59 I/O GEN TP PU PU Spare GPIO. Can be used by the WL, BT, and GPS IP's 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 12 of 36 148603 Project Document 3.1. Pin Layout Pin layout has been optimized for RF performance, heat dissipation, Voltage drop, signal route, host signal connections, module size, and manufacturability. Figure 1 - Pin Map 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 13 of 36 148603 Project Document 4. Design Guidelines and Recommendations 4.1. Typical Application Schematic General Note: This typical application schematic and BOM has not been updated to reflect the addition of RF0 and the associated part numbers in the Section 1.4. As such, please use the latest MPA3 platform schematics. This section(4.1) is superseded by Section 1.4 and the MPA3 controlled schematics. NOTE: FM is DISABLED in all revisions, and WLAN RF0 Path is not populated in the -01 and -02 versions. An application schematic has been created for the MPA3 platform and is controlled outside of this document. Schematic-function-blocks have been created for each subfunction such as optional BT and FM. Shown on page 16 is a typical application schematic for the 148603 module with all schematic blocks for both the -01 and -02 module versions. Listed below Table 3 is the bill of materials (BOM) for the Application Schematic. IMPORTANT NOTE: SDIO lines must be pulled up by the host. Place signal conditioning resistor on SDIO_CLK close to host processor. 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 14 of 36 148603 Project Document Table 3 - Typical Application Schematic BOM Motorola Part Number Qty Ref Designator 21-144290-02 50-11500-458 50-11500-471 50-11568-25K102 50-11568-25K471 50-11573-10K104 50-11578-25J100 50-11578-25J470 50-11800-542 50-11800-563 50-11800-715 50-11800-717 50-11824-2R7 50-11828-510 50-12700-167 50-12700-168 50-13130-3981 50-14714-1000 50-14725-2701 50-14726-000 50-15600-072 50-21815-181 NOT_USED 18 22 U2 C10,C17 C9 C25 C13,C14 C11,C16,C21 C29 C12,C15,C24 L3,L4 L2 L1 L5,L11 L8,L9 L6,L7 FL1 U3 U1 R20 R22 R1-R12, R17-R19,R21,R23,R24 T1 L10 C1-C8,C18-C20,C22,C23,C26-C28,C30,C31,R13-R16 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 15 of 36 148603 Project Document 148603 148603-02 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. 20110610-i Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 16 of 36 148603 Project Document 4.2. Host PCB Layout Recommendations 4.2.1. Recommended Footprint and Solder Paste The latest part symbol should be always be refreshed from the Motorola Solution part libraries. See Appendix for the Recommended Host PCB Footprint/Pastemask. The Allegro Footprint (.dra) is also available. No traces under this green shaded area. See Section Error! Reference source not found. Figure 2 – TOP VIEW Recommended Option 3) Solid ground beneath the specific module areas 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 17 of 36 148603 Project Document 5. Host Requirements 5.1. Electrical Power VBAT = 3.3V ±10%, with a ripple of 25mVRMS (Sine wave 10 Hz to 5 MHz) VIO = 1.8V ±5%, with a ripple of 25mVRMS (Sine wave 10 Hz to 5 MHz) 5.2. Environmental 5.2.1. Absolute Maximum Ratings Stresses beyond those listed in Table 4 below may cause permanent damage to the device. These are stress ratings only and the functional operation of the device at these or any other conditions beyond those indicated under Table 5 - Normal Operating Conditions” is not implied. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability. Rating Condition Min Max Unit VBAT power supply voltage Absolute Max Voltage up to 6 hours cumulative in 7 years. -0.5 5.5 -0.5 2.1 -0.5 2.1 -0.5 VIO+0.5V VIO power supply voltage Input voltage to Analog pins FM_RF_IN_P, FM_AUD_IN_L, FM_AUD_IN_R FM_AUD_OUT_L, FM_AUD_OUT_R Input voltage to all other pins Operating ambient temperature range Absolute Minimum driven by TCXO -30 85 °C Storage temperature range Absolute Max driven by TCXO -40 85 °C Table 4 - Absolute Maximum Ratings 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 18 of 36 148603 Project Document 5.2.2. Normal Operating Conditions Rating Condition Sym Min Typ VBAT power supply voltage VIO power supply voltage VBAT Maximum ripple Sine wave 10 Hz to 5 MHz VIO Maximum ripple Sine wave 10 Hz to 5 MHz VIO High-level input voltage VIO Low-level input voltage VIH Default VIL VOH @ 0.3 mA 1.71 1.8 1.89 @ 0.09 mA Input transitions time Tr/Tf from 10% to 90% (Digital IO) (1) 3.6 VIO 0.45 VIO 0.112 VIO 0.033 VOL @ 1 mA 3.3 0.65 x VIO @ 4 mA Low-level output voltage 25 Default @ 1 mA Unit 25 @ 4 mA High-level output voltage Max Tr/Tf mVrms mVrms VIO 0.35 x VIO VIO VIO VIO 0.45 0.112 0.01 10 nS Output rise time from 10% to 90% (Digital pins) (1) CL < 25 pF Tr 5.3 ns Output fall time from 10% to 90% (Digital pins) (1) CL < 25 pF Tf 4.9 ns -20 +70 ºC -40 +85 ºC 110 190 uA Ambient operating temperature (installed environment) Storage temperature (installed environment) Pull currents All except WL_EN, BT_GPS_FM_EN, (For these typ = 6uA) (1) Applies to all Digital lines except SDIO, UART, and SLW_CLK lines Table 5 - Normal Operating Conditions 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 19 of 36 148603 Project Document 5.3. External Slow Clock (32K) Requirement The supported digital slow clock is a free-running clock of 32.768 KHz which is supplied from an external clock source. It shall be connected to the SLOW_CLK pin and is a digital square-wave signal in the range of 0-1.8V Nom. See Table 2 above on page 10 for module pin number. All four core functions share a single input. Refer to * If the available slow clock source does not meet the 40 ppm requirement, there are two options; • Use the fast clock for the FM_TX functionality. This is configured using a vendor-specific command to switch to Fref operation after enabling the FM core with the slow clock source. • Enable clock error calibration in the FM core to compensate for the clock source error. The calibration can be done using a known vendor-input clock error or intrinsically to the core (self-calibration). Table 6 - Slow Clock Requirements below for slow clock specifications. SLOW_CLK is a "fail-safe" input and can support an external clock voltage on the module pin even when no power is supplied to the module. See Error! Reference source not found. Error! Reference source not found. for the SLOW_CLK input requirements. Characteristics Condition Sym Min. Typ. Input slow clock frequency Input slow clock accuracy (Initial + temp + aging) Unit 32768 Hz WLAN, BT ±250 GPS ±200 FM_RX ±150 FM_TX * ppm ±40 Input transition time Tr/Tf -10% to 90% Tr/Tf Frequency input duty cycle Input voltage limits Max. 15 Square wave, DC-coupled Vih 0.65 x VIO Vil Input impedance 100 ns 85 50 VIO Vpeak 0.35 x VIO MΩ Input capacitance Phase noise 1 kHz , 10 kHz -125 Jitter Integrated over 300 - 15000 Hz pF dBc/Hz 1Hz / 0.5nS * If the available slow clock source does not meet the 40 ppm requirement, there are two options; • Use the fast clock for the FM_TX functionality. This is configured using a vendor-specific command to switch to Fref operation after enabling the FM core with the slow clock source. • Enable clock error calibration in the FM core to compensate for the clock source error. The calibration can be done using a known vendor-input clock error or intrinsically to the core (self-calibration). Table 6 - Slow Clock Requirements 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 20 of 36 148603 Project Document 5.4. Timing Requirements 5.4.1. Power Up Timing 5.4.1.1. WLAN 5.4.1.2. BT/GPS/FM TBD TBD 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 21 of 36 148603 Project Document 5.4.2. SDIO Timing Requirements 5.4.2.1. SDIO Data Switching Characteristics Table 7 - SDIO Single Block Read Parameter Sym Delay time, assign relative address or data transfer mode / Read-command CMD valid to card-response CMD valid Delay time, CMD command valid to CMD command valid Delay time, CMD response valid to CMD command valid Access time, CMD command valid to SD3-SD0 read data valid Min. Max. tCR 64 tCC 58 tRC tAC Unit Clock cycles Clock cycles Clock cycles Clock cycles Table 8 - SDIO Interface Read 5.4.2.2. SDIO Data Switching Characteristics NOTE: CRC status and busy waveforms are only for data line 0. Data lines 1-3 are N/A. The busy waveform is optional, and may not be present. Table 9 - SDIO Single Block Write Parameter Sym Delay time, CMD card response invalid to SD3-SD0 write data valid td1 td2 Delay time, SD3-SD0 write data invalid end to CRC status valid Min. Max. Unit Clock cycles Clock cycles Table 10 -SDIO Interface Write 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 22 of 36 148603 Project Document 5.4.2.3. SDIO Switching Characteristics Over Recommended operating conditions Parameters for maximum clock frequency Table 11 – SDIO Timing Parameter Sym Min. Max. Clock frequency, CLK Default Rate Unit fclock 26 MHz Clock frequency, CLK High Rate fclock 52 MHz Low/high duty cycle DC 40 60 Rise time, CLK tTLH ns Fall time, CLK tTHL ns Setup time, input valid before CLK ↑ tISU Hold time, input valid after CLK ↑ tIH Delay time, CLK ↓ to output valid tODLY Capacitive load on outputs Cl ns 2.5 ns 14.8 ns 15 pF Table 12 - SDIO Timing 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 23 of 36 148603 Project Document 5.5. Antenna Requirements The following table summarizes the guidelines for the Antenna design: 5.5.1. WLAN Description Requirement Comments Lower band 2.4 GHz to 2.5 GHz Upper band 4.920 GHz to 5.825 GHz 50 ohms Required for 802.11g support Required for 802.11a support Frequency Bands Nominal Impedance VSWR Gain (Peak) Less than 2.0:1 Across bands 3dBi for the lower band Does not include RF losses between 148603 radio and Antenna connector 4dBi for the upper band Table 13 - WLAN Antenna Requirements Regulatory Note: Many country regulations require special testing and reporting of antenna performance or of the system with the antenna attached. Please check the appropriate regulatory authority or contact Motorola Solutions for more information. 5.5.2. BT If the BT antenna is being shared with WLAN, then the WLAN antenna requirements in Table 13 above supersede the requirements in this section. If a standalone antenna for BT is being used then the requirements in Table 14 apply. Description Requirement Comments Frequency Band Bluetooth Nominal Impedance VSWR 2.4 GHz to 2.5 GHz 50 ohms Less than 2.0:1 Across the Band Table 14 - Bluetooth Antenna Requirements 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 24 of 36 148603 Project Document 5.5.3. GPS Description Requirement Comments Frequency Bands GPS 1575.42MHz ± 2MHz GLONASS* 1565MHz1606MHz Nominal Impedance VSWR 50 ohms Although the 148603 does not support GLONASS it is recommended that the antenna is ready for future proofing Less than 2.0:1 Table 15 - GPS Antenna Requirements 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 25 of 36 148603 Project Document 6. Module Specifications 6.1. Power Consumption Hardware Low Power Mode - Module Shutdown (SDWN) Description: After VBAT and VIO are supplied to the module and while WLAN_EN and BT_GPS_FM_EN are de-asserted (LOW), the module is in Shutdown state. Open connections will be lost. Upon resume downloading firmware is necessary. Requirements: o SDIO lines should be held high by the host to prevent leakage. o Host clears all enables WL_EN & BT_GPS_FM_EN. o Host ensures all other IOs are in the correct state to prevent backpowering. State Supply Voltage VBAT= 3.3V, VIO = 1.8V Shutdown VBAT current (uA) Comments Min. See Section 6.1 Typ. Max. 40 VIO current (uA) Min. Typ. Max. 10 Table 16 - Hardware Low Power Mode - Module Shutdown (SDWN) Current Draw 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 26 of 36 148603 Project Document 6.1.1. WLAN Power Consumption System Draws for MPA3 Guidance: o Software Low Power Mode – Extended Low Power Mode (ELP, RTTT=Sleep Mode) Description: In this mode, MAC, PHY, and DRPw are in shutdown mode. The WL1283 SoC will not be able to receive packets. While in ELP mode, the WL1283 WLAN IP operates on slow clock only. Requirements: Processor sends SDIO (or RTTT UART) commands to the WLAN core. In case of critical suspend need to disable wake on WL_IRQ. See Error! Reference source not found. on page Error! Bookmark not defined. o Highest Current Mode VBAT :Transmitting CW 22dBm on 2.4GHz (This will change based on EV2 /DV results and the limitation in output power) VIO: Loading FW o Worst Case Suspend Mode - Wake on LAN (WOWL) Description: WAKE ON LAN is designed to block packets from going up from the firmware layer into the driver layer. Requirements: The enabling of this feature requested two separate different commands.1. Enable the feature. 2. Configure the filter different variants. If the filter is activated and the user didn't define the filter variants, then all packets will be blocked from arriving to the driver layer. Current draws are approximate based and are solely based on TI solution specification: Dynamic mode with Beacon (DTIM = 1 ; TBTT = 100 ms; Beacon duration ~1.6 ms ; Rate=1 Mbps) Beacon in Listen mode This mode reflects results with software drivers and not the RTTT tool. Other WLAN Core Discrete Power Modes: Together with ELP there are 4 discrete power modes for the WLAN Core. The other three are: o Awake mode In this mode MAC, PHY, and DRPw are fully active and various RT3 functions are all active. While in this mode, power consumption is not optimized. o Listen mode In Listen mode, MAC and Phy are awake, but DRPw shuts down one of the RF channels. While in this mode, the WL1283 SoC will accept only 11b packets; OFDM packets are not supported. This mode saves power while the WL1283 SoC is active and ready to receive a new packet. o StandBy (Power Down Mode) 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 27 of 36 148603 Project Document 6.1.2. In this mode, PHY and DRPw are in shutdown mode. The WL1271 SOC will not be able to receive packets. BT Power Consumption Software Low Power Mode - Deep Sleep Send Vendor specific command to radio during download of patch BT connections will be maintained. No need to download patch. In case of critical suspend need to disable wake on data. Highest Current Mode Transferring data using BT Serial port profile. Transmitting EDR data. *Specification is at 4 dBm and needs to be measured at class1.5 power levels. Worst Case Suspend Mode Depends on if either Hardware or Software Low Power Mode is implemented WC numbers here are represented of Software low power mode State Comments VBAT current (mA) Min. Supply Voltage VBAT= 3.3V, VIO = 1.8V Typ. VIO current (mA) Max. Min. Typ. Max. System (MPA3 Guidance) Software Low Power Mode - Deep Sleep See Section 0.2 0.03 Highest Current Mode See Section 29 TBD Table 17 - BT Power Consumption 6.1.3. GPS Power consumption GPS sub-section shall not exceed current draw indicted below. DC Spec Current (mA) Characteristics Full Power Tracking Mode Acquisition Mode @-130dBm Power Level Sleep current Average Typical Peak LNA 1.8V 7.5 VIO 1.8V 0.5 0.6 Vbat 3.3V 22 27 LNA 1.8V 7.5 VIO 1.8V 0.5 0.6 Vbat 3.3V 36.5 42 LNA 1.8V VIO 1.8V 0.5 0.6 Vbat 3.3V 0.1 1.1 Table 18 - GPS Power Consumption 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 28 of 36 148603 Project Document 7. Appendix 7.1. Recommended Host PCB Pastemask Figure 3 - Recommended host PCB PasteMask 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 29 of 36 148603 Project Document 7.2. Mechanical Interface Drawing 7.3. Regulatory 7.3.1. CE Regulations This equipment may be operated in: AT BE BG CH EE ES FI FR IT IS LI LT CY GB LU CZ GR LV 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" DE HU MT DK IE NL 20110610-i 30 of 36 148603 Project Document NO PL PT RO SE SI SK TR Products with 2.4–GHz Wireless LAN Devices France L'utilisation de cet equipement (2.4GHz wireless LAN) est soumise à certaines restrictions: cet equipement peut être utilisé à l'interieur d'un batiment en utilisant toutes les frequences de 2400 a 2483.5MHz (Chaine 1–13). Pour une utilisation en environement exterieur, les frequences comprises entre 2400-2454 MHz (Chaîne 1-9) peuvent être utilisé. Pour les dernières restrictions, voir http://www.art-telecom.fr. For 2.4–GHz wireless LAN operation of this product, certain restrictions apply. This equipment may use the entire–2400–MHz to 2483.5–MHz frequency band (channels 1 through 13) for indoor applications. For outdoor use, only 2400-2454 MHz frequency band (channels 1-9) may be used. For the latest requirements, see http://www.arttelecom.fr. 7.3.2. FCC Regulations This mobile phone 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. This mobile phone 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 radiated radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: -Reorient or relocate the receiving antenna. -Increase the separation between the equipment and receiver. -Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. -Consult the dealer or an experienced radio/TV technician for help. 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 31 of 36 148603 Project Document FCC Caution: Any Changes or modifications not expressly approved by the party responsible for compliance could void the user„s authority to operate the equipment. The antenna(s) used for this transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. Operation on the 5.15-5.25 GHz frequency band is restricted to indoor use only. Note: The country code selection is for non-US model only and is not available to all US model. Per FCC regulation, all WiFi product marketed in US must fixed to US operation channels only. Radiation Exposure Statement: Radiation Exposure Statement: This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance 20cm between the radiator & your body. Note: The country code selection is for non-US model only and is not available to all US model. Per FCC regulation, all WiFi product marketed in US must fixed to US operation channels only. This device is intended only for OEM integrators under the following conditions: The antenna must be installed such that 20 cm is maintained between the antenna and users, and The transmitter module may not be co-located with any other transmitter or antenna. As long as 2 conditions above are met, further transmitter test will not be required. However, the OEM integrator is still responsible for testing their end-product for any additional compliance requirements required with this module installed IMPORTANT NOTE: In the event that these conditions can not be met (for example certain laptop configurations or co-location with another transmitter), then the FCC authorization is no longer considered valid and the FCC ID can not be used on the final product. In these circumstances, the OEM integrator will be responsible for reevaluating the end product (including the transmitter) and obtaining a separate FCC authorization. End Product Labeling 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 32 of 36 148603 Project Document This transmitter module is authorized only for use in device where the antenna may be installed such that 20 cm may be maintained between the antenna and users. The final end product must be labeled in a visible area with the following:“Contains FCC ID: XXXXXXXX”, where XXXXXXXX is the approved FCC ID for the device being installed. The grantee's FCC ID can be used only when all FCC compliance requirements are met. Manual Information To the End User The OEM integrator has to be aware not to provide information to the end user regarding how to install or remove this RF module in the user‟s manual of the end product which integrates this module. The end user manual shall include all required regulatory information/warning as show in this manual. 7.3.3. IC Regulations Industry Canada statement: This device complies with RSS-210 of the Industry Canada 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. Ce dispositif est conforme à la norme CNR-210 d'Industrie Canada applicable aux appareils radio exempts de licence. Son fonctionnement est sujet aux deux conditions suivantes: (1) le dispositif ne doit pas produire de brouillage préjudiciable, et (2) ce dispositif doit accepter tout brouillage reçu, y compris un brouillage susceptible de provoquer un fonctionnement indésirable. Radiation Exposure Statement: This equipment complies with IC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance 20cm between the radiator & your body. Déclaration d'exposition aux radiations: Cet équipement est conforme aux limites d'exposition aux rayonnements IC établies pour un environnement non contrôlé. Cet équipement doit être installé et utilisé avec un minimum de 20 cm de distance entre la source de rayonnement et votre corps. This device is intended only for OEM integrators under the following conditions: (For module device use) 1) The antenna must be installed such that 20 cm is maintained between the antenna and users, and 2) The transmitter module may not be co-located with any other transmitter or antenna. 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 33 of 36 148603 Project Document As long as 2 conditions above are met, further transmitter test will not be required. However, the OEM integrator is still responsible for testing their end-product for any additional compliance requirements required with this module installed. Cet appareil est conçu uniquement pour les intégrateurs OEM dans les conditions suivantes: (Pour utilisation de dispositif module) 1) L'antenne doit être installée de telle sorte qu'une distance de 20 cm est respectée entre l'antenne et les utilisateurs, et 2) Le module émetteur peut ne pas être coïmplanté avec un autre émetteur ou antenne. Tant que les 2 conditions ci-dessus sont remplies, des essais supplémentaires sur l'émetteur ne seront pas nécessaires. Toutefois, l'intégrateur OEM est toujours responsable des essais sur son produit final pour toutes exigences de conformité supplémentaires requis pour ce module installé. IMPORTANT NOTE: In the event that these conditions can not be met (for example certain laptop configurations or co-location with another transmitter), then the Canada authorization is no longer considered valid and the IC ID can not be used on the final product. In these circumstances, the OEM integrator will be responsible for re-evaluating the end product (including the transmitter) and obtaining a separate Canada authorization. NOTE IMPORTANTE: Dans le cas où ces conditions ne peuvent être satisfaites (par exemple pour certaines configurations d'ordinateur portable ou de certaines co-localisation avec un autre émetteur), l'autorisation du Canada n'est plus considéré comme valide et l'ID IC ne peut pas être utilisé sur le produit final. Dans ces circonstances, l'intégrateur OEM sera chargé de réévaluer le produit final (y compris l'émetteur) et l'obtention d'une autorisation distincte au Canada. End Product Labeling This transmitter module is authorized only for use in device where the antenna may be installed such that 20 cm may be maintained between the antenna and users. The final end product must be labeled in a visible area with the following: “Contains IC:XXXXXXXX”, where XXXXXXXX is the approved IC ID for the device being installed. Plaque signalétique du produit final Ce module émetteur est autorisé uniquement pour une utilisation dans un dispositif où l'antenne peut être installée de telle sorte qu'une distance de 20cm peut être maintenue entre l'antenne et les utilisateurs. "Contient des IC: IC: XXXXXXXX", où XXXXXXXX est l'ID approuvée IC pour le périphérique en cours d'installation. Manual Information To the End User The OEM integrator has to be aware not to provide information to the end user regarding how to install or remove this RF module in the user‟s manual of the end product which integrates this module. The end user manual shall include all required regulatory information/warning as show in this manual. 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 34 of 36 148603 Project Document 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 35 of 36 148603 Project Document Manuel d'information à l'utilisateur final L'intégrateur OEM doit être conscient de ne pas fournir des informations à l'utilisateur final quant à la façon d'installer ou de supprimer ce module RF dans le manuel de l'utilisateur du produit final qui intègre ce module. Le manuel de l'utilisateur final doit inclure toutes les informations réglementaires requises et avertissements comme indiqué dans ce manuel. Caution : (i) the device for operation in the band 5150-5250 MHz is only for indoor use to reduce the potential for harmful interference to co-channel mobile satellite systems; (ii) the maximum antenna gain permitted for devices in the bands 5250-5350 MHz and 5470-5725 MHz shall comply with the e.i.r.p. limit; and (iii) the maximum antenna gain permitted for devices in the band 5725-5825 MHz shall comply with the e.i.r.p. limits specified for point-to-point and non point-to-point operation as appropriate. (iv) Users should also be advised that high-power radars are allocated as primary users (i.e. priority users) of the bands 5250-5350 MHz and 5650-5850 MHz and that these radars could cause interference and/or damage to LE-LAN devices. Avertissement: Le guide d‟utilisation des dispositifs pour réseaux locaux doit inclure des instructions précises sur les restrictions susmentionnées, notamment : (i) les dispositifs fonctionnant dans la bande 5 150-5 250 MHz sont réservés uniquement pour une utilisation à l‟intérieur afin de réduire les risques de brouillage préjudiciable aux systèmes de satellites mobiles utilisant les mêmes canaux; (ii) le gain maximal d‟antenne permis pour les dispositifs utilisant les bandes 5 250-5 350 MHz et 5 470-5 725 MHz doit se conformer à la limite de p.i.r.e.; (iii) le gain maximal d‟antenne permis (pour les dispositifs utilisant la bande 5 725-5 825 MHz) doit se conformer à la limite de p.i.r.e. spécifiée pour l‟exploitation point à point et non point à point, selon le cas. (iv) De plus, les utilisateurs devraient aussi être avisés que les utilisateurs de radars de haute puissance sont désignés utilisateurs principaux (c.-à-d., qu‟ils ont la priorité) pour les bandes 5 250-5 350 MHz et 5 650-5 850 MHz et que ces radars pourraient causer du brouillage et/ou des dommages aux dispositifs LAN-EL. 148603 Specification and Integration Guide Copyright 2012 Motorola Solutions, Inc. Confidential Material – Disclosure Strictly Prohibited. "Nickel Leuc oc hroic Puffi n" 20110610-i 36 of 36
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