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Summary of Contents for Lantronix PremierWave EN
- Page 1 PremierWave Embedded System on Module Integration Guide Part Number 900-580 Revision K January 2016...
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Page 2: Intellectual Property
Intellectual Property © 2016 Lantronix, Inc. All rights reserved. No part of the contents of this publication may be transmitted or reproduced in any form or by any means without the written permission of Lantronix. Printed in the United States of America. - Page 3 FCC authorization is no longer considered valid and the FCC ID cannot be used on the final product (including the transmitter). Changes or modifications to this device not explicitly approved by Lantronix will void the user's authority to operate this device. PremierWave® Embedded System on Module Integration Guide...
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Page 4: Revision History
Revision History Date Rev. Comments January 2011 Initial Draft February 2011 Added a zoom top assembly diagram. July 2011 Added mounting requirements and notes for the EN module clip. August 2011 Updated connector and tolerance information, the mechanical dimension diagrams and the evaluation board power supply circuitry diagram. -
Page 5: Table Of Contents
About the Integration Guide _______________________________________________ 6 Additional Documentation _________________________________________________ 6 2: Description and Specifications PremierWave EN Block Diagram ___________________________________________ 8 PremierWave Connector Pin Assignments and Descriptions ______________________ 8 Mating Connector ______________________________________________________ 11 Module Radio and Antenna Connection Options ______________________________ 11... -
Page 6: 1: Introduction
Introduction About the Integration Guide This guide provides the information needed to integrate the Lantronix® PremierWave® EN and PremierWave SE1000 systems on module within another product. The intended audiences are the engineers responsible for integrating a PremierWave system on module into their product. -
Page 7: 2: Description And Specifications
With a choice of flexible, media-independent modules ranging from Ethernet, Wi-Fi and ultra- secure Wi-Fi, the PremierWave EN takes the complexity out of RF design and networking. OEMs can focus on their core competencies while minimizing engineering risk, shortening development time and reducing development cost. -
Page 8: Premierwave En Block Diagram
2: Description and Specifications PremierWave EN Block Diagram The following drawing is a block diagram of the PremierWave EN module showing the relationships of the components. Note: The 802.11abgn radio block is not installed on the PremierWave SE1000 system on module. - Page 9 2: Description and Specifications Pin# Pin Name Function Name RTS1 UART 1 Request To Send S3V3 3.3V Power Input UART 1 Receive S3V3 3.3V Power Input CTS1 UART1 Clear To Send I/O Configurable Pin 1 S3V3 3.3V Power Input I/O Configurable Pin 2 S3V3 3.3V Power Input I/O Configurable Pin 3...
- Page 10 2: Description and Specifications Pin# Pin Name Function Name WKUP CPU Wakeup Drive low with Open Drain, Signal pulled up internally, Do not Drive high S3V3 3.3V Power Input USB Device Port + S3V3 3.3V Power Input USB Device Port - S3V3 3.3V Power Input HDPA...
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Page 11: Mating Connector
P/N PEN10010NASA-01 sample External Antennas The PremierWave EN module has been certified using the external antennas listed below in addition to the internal antenna provide on the module. Per FCC guidelines, the PremierWave certification remains valid if using an antenna similar to the antennas below or the internal chip antenna. -
Page 12: Antenna Placement
The PremierWave EN module has an option for an on-board chip antenna. When designing the PremierWave EN system on module to a mating board, it is important to consider the final installation of the unit and its location with respect to connecting access points. The PremierWave EN module should be placed such that the chip antenna has as clear as possible path to the connecting access point for maximum range. -
Page 13: Ethernet Input/Output
Lantronix has performed all certification to FCC Class B without U22 populated. The Ethernet signals may be left unconnected if unused. See the Lantronix app note, “How to Connect a Lantronix Embedded Module to a Wired Ethernet Port” for more details on Ethernet connection and routing, http://www.lantronix.com/pdf/appnotes/Connect-LTRX-Embed-Module-to-Wired-... - Page 14 2: Description and Specifications Pin Name Description PremierWave Signal Requirement RJ45 MagJack Connector Belfuse, 08B0- Pins 1D1T-06-F Pin assignment E_SPEED Link Speed Active low for Route to LED cathode 100Mbps, Off (high) for through 220 ohm or 10Mbps. greater. 3.3 V power 3.3V power, connect to 8, 10 LED anodes.
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Page 15: Serial Input/Output
UART2 Clear to Send In TXD3 CP6/UART3 Transmit Out RXD3 CP5/UART3 Receive IN RTS3 CP8/UART3 Request to Send Out CTS3 CP9/UART3 Clear to Send In Table 2-6 RS232 Connections PremierWave EN DCE Connector DTE Connector Signal Description DB25 Signal DB25 Signal (Logic) RXDx... -
Page 16: Sample Layouts For Rs-485 Connectivity
Data In RX-485 RTSx TX Enable RS485 Select RS485 2-wire Sample Layouts for RS-485 Connectivity Figure 2-5 Combined RS-232/422 Transceiver DB9 Connector PremierWave EN RS232/422/485 Xcvr TX Data Out TXD1 TXin RX Data In TXD/TX- RXD1 RXout 485 TX Enable... -
Page 17: Usb Host Ports
2: Description and Specifications Figure 2-7 Separate RS-422 Transceivers for 2-Wire and 4-Wire Setups DB25 Connector PremierWave EN RS232 Xcvr TX Data Out TXD1 TXin RX Data In RXD1 RXout 485 TX Enable RTS1 RS232 Enable RS232 EN 2 Wire Control... - Page 18 2: Description and Specifications Table 2-8 USB Host Port Signals Pin Name Description PremierWave Signal Type A USB Connector Pins Requirement Host connector HDPA USB Host Port A Route as 90 ohm Positive pin differential pair with HDMA signal HDMA USB Host Port A Route as 90 ohm Negative pin...
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Page 19: Usb Device Port
USB Mini Type B connector be limited to less than 500mA per USB requirements. The peak current of the PremierWave EN module with wireless enabled is greater than 500 mA at 3.3V. It is not recommended to power the PremierWave module with a regulator connected to the USB device port input power if wireless transmission will be used. -
Page 20: General Purpose Io
2: Description and Specifications General Purpose IO Many of the IO signals on the PremierWave can be used as software configurable I/O pins. The table below shows all the pins that can be used as configurable IO along with their default function. -
Page 21: Serial Debug Port
Serial Debug Port Power Supply Requirements The PremierWave EN module uses up to 600 mA during normal operation. In addition, there are power in rush currents of approximately 2A that occur at various stages of the power up, boot sequence, and wake up from shutdown mode. These in rush currents are due to internal power rails turning on. -
Page 22: Module Initial Power Up Sequence
2: Description and Specifications It is recommended that all logic IO signals be tristated or driven low when the EN module is powered off or in its initial power up sequence. Please see Module Initial Power Up Sequence below. For applications requiring USB host port functionality it is recommended that at least 500mA current be provided for each external host port. -
Page 23: Module Power Down State
2 can be driven low for a minimum of 50 milliseconds with an open drain circuit to reset the module when desired. See the PremierWave EN Embedded System on Module User Guide for more information about entering the Shutdown state. -
Page 24: Wireless Specifications
2: Description and Specifications Wireless Specifications Table 2-12 Wireless Specifications Wireless Channel Transmit Power (Typical) Receive Sensitivity (Typical) Standard Frequency Range 2.412 – 2.484 GHz 802.11 b/g/n 17 dBm for 802.11b DSSS -71.0 dBm (<10% PER) @65Mbps 17 dBm for 802.11b CCK -74.0 dBm (<10% PER) @54Mbps 15 dBm for 802.11g/n OFDM -94.0 dBm (<8% PER) @1Mbps... -
Page 25: Mounting Instructions
The PremierWave module should be mounted with hardware that maintains a 2mm height. Lantronix can provide this hardware as part number 120-093-R. The mated height of the interface connector is 2mm. If custom hardware is made, it must maintain the mounting height of 2mm to ensure the interface connector is properly seated. - Page 26 2: Description and Specifications Figure 2-15 PremierWave SE1000 Product Label PremierWave® Embedded System on Module Integration Guide...
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Page 27: A: Compliance
Compliance Information Emission/Susceptibility (According to ISO/IEC Guide 17050-1, 17050-2 and EN 45014) Manufacturer’s Name & Address: Lantronix 7535 Irvine Center Drive, Suite 100, Irvine, CA 92618 USA Declares that the following product: Product Name Model: PremierWave® EN Embedded Device Server, and PremierWave®... - Page 28 Passive 5805 Active Passive 5825 Active Passive Note: The PremierWave EN does not support 40Mhz bandwidth channels. Country codes are not available to the end user. Last updated for Ganges driver version 3.2.12. PremierWave® Embedded System on Module Integration Guide...
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Page 29: B: Warranty
B: Warranty For details on the Lantronix warranty replacement policy, please go to our web site at www.lantronix.com/support/warranty. PremierWave® Embedded System on Module Integration Guide...
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