MatchPort b/g Pro Integration Guide Part Number 900-532 Revision B December 2011 Copyright and Trademark (c) 2011 Lantronix. All rights reserved. No part of the contents of this book 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. MatchPort(R), with its patent-pending technology, is a trademark of Lantronix. Ethernet is a trademark of XEROX Corporation. UNIX is a registered trademark of The Open Group. Windows is a trademark of Microsoft Corp. Contacts Lantronix Corporate Headquarters 167 Technology Drive Irvine, CA 92618, USA Phone: 949-453-3990 Fax: 949-450-7249 Technical Support Online: www.lantronix.com/support Email/Chat: www.lantronix.com/support Sales Offices For a current list of our domestic and international sales offices go to the Lantronix web site at www.lantronix.com/about/contact/. Disclaimer and Revisions Operation of this equipment in a residential area is likely to cause interference to other devices, in which case the user, at his or her own expense, will be required to take whatever measures may be required to correct the interference. Note: This product has been designed to comply with the limits for a Class B digital device pursuant to Part 15 of FCC and EN55022:1998 Rules when properly enclosed and grounded. These limits are designed to provide reasonable protection against radio interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy, and if not installed and used in accordance with this guide, may cause interference to radio communications. Changes or modifications to this device not explicitly approved by Lantronix will void the user's authority to operate this device. Note: With the purchase of MatchPort b/g Pro, the OEM agrees to an OEM firmware license agreement that grants the OEM a non-exclusive, royalty-free firmware license to use and distribute the binary firmware image provided, only to the extent necessary to use the MatchPort b/g Pro hardware. For further details, please see the MatchPort b/g Pro OEM firmware license agreement. Disclaimer 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. This equipment generates, uses, and can radiate 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 of the following measures: MatchPort b/g Pro Integration Guide 2 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. This device 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 device is intended only for OEM Integrators. The OEM integrator should be aware of the following important issues. Labeling of the End Product The label on the end product incorporating the MatchPort b/g pro module must clearly state that it contains an FCC-approved RF module. For example, "This product contains an RF transmitter FCC ID: R68MPBGPRO and IC: 3867A-MPBGPRO." RSS-GEN Sections 7.1.4 and 7.1.5 Statement for Devices with Detachable Antennas This device has been designed to operate with the antennas listed in the Certificate, and having a maximum gain of 5 dBi. Antennas not included in this list or having a gain greater than 5 dBi are strictly prohibited for use with this device, unless system-level FCC approval is gained. The required antenna impedance is 50 ohms. To reduce potential radio interference to other users, the antenna type and its gain should be so chosen that the equivalent isotropically radiated power (EIRP) is not more than that required for successful communication. Integration Note a) This module is authorized under limited module approval specified to mobile host equipment. So, the antenna must be installed such that 20cm is maintained between the antenna and users. b) The transmitter module may not be co-located with any other transmitter or antenna. As long as the two conditions above are met, further transmitter testing 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 (for example, digital device emission, PC peripheral requirements, etc.) Note: In the event that these conditions cannot be met (for example certain laptop configurations, general purpose PCMCIA or similar cards, or co-location with another transmitter), then the FCC authorization is no longer considered valid and the FCC ID cannot be used on the final product (including the transmitter) and obtaining a separate FCC authorization. Note: Changes or modifications to this device not explicitly approved by Lantronix will void the user's authority to operate this device. Revision Table Date April 2008 December 2011 MatchPort b/g Pro Integration Guide Rev. A B Comments Initial Release Updated absolute maximum ratings and recommended supply voltage information. 3 Contents Contents ______________________________________________________________ 4 List of Figures __________________________________________________________ 5 List of Tables ___________________________________________________________ 5 1: Introduction 6 About the Integration Guide _______________________________________________ 6 Additional Documentation _________________________________________________ 6 2: Description and Specifications 7 MatchPort b/g Pro Block Diagram ___________________________________________ 7 MatchPort b/g Pro Pinouts_____________________________________________________ 9 Power and Ground ______________________________________________________ 9 Reset ________________________________________________________________ 10 Ethernet Connections ___________________________________________________ 10 Ethernet LED Connections _______________________________________________ 11 Wireless LED Connections _______________________________________________ 11 Antenna Mating Connector _______________________________________________ 11 Antenna ______________________________________________________________ 12 Serial Input/Output _____________________________________________________ 13 Sample Layouts for RS485 Connectivity ____________________________________ 13 IO Configurable Pins (CPs) _______________________________________________ 15 BOOTP_EN# __________________________________________________________ 16 BOOTP enable ____________________________________________________________ 16 Diagnostics LED ___________________________________________________________ 16 Pin Connection Options ______________________________________________________ 16 Electrical Specifications _________________________________________________ Wireless Specifications __________________________________________________ Technical Specifications _________________________________________________ Dimensions ___________________________________________________________ Recommended PCB Layout ______________________________________________ Product Information Label ________________________________________________ 3: Demonstration Kit Contents of the Kit______________________________________________________ Demo Board Description _________________________________________________ Serial Interfaces _______________________________________________________ Power Supply _________________________________________________________ General Control ________________________________________________________ Configuration Switch Bank _______________________________________________ Demo Board Layout ____________________________________________________ Demo Board Schematics ________________________________________________ 17 18 18 19 21 22 23 23 23 24 24 24 25 27 28 A: Compliance 32 B: Warranty 33 MatchPort b/g Pro Integration Guide 4 List of Figures Figure 2-1. MatchPort b/g Pro Block Diagram _____________________________________ 8 Figure 2-2. Connection Diagram to an RJ45 Jack ________________________________ 10 Figure 2-3. Recommended LED Connections ____________________________________ 11 Figure 2-4. Recommended LED Connections ____________________________________ 11 Figure 2-5. Reverse-SMA to U.FL (P/N 500-180-R) _______________________________ 12 Figure 2-6. U.FL to U.FL Cable (P/N 500-181-R) _________________________________ 12 Figure 2-7. R-SMA Antenna Connector Dimensions (not to scale)____________________ 12 Figure 2-8. Combined RS232/422 Transceiver ___________________________________ 13 Figure 2-9. Separate RS232/422 Transceivers ___________________________________ 14 Figure 2-10. Separate RS422 Transceivers for 2-Wire and 4-Wire Setups _____________ 15 Figure 2-11. BOOTP_EN# APPLICATION CIRCUIT ______________________________ 17 Figure 2-12. Side Views ____________________________________________________ 19 Figure 2-13. Top View ______________________________________________________ 20 Figure 2-14. Bottom View ___________________________________________________ 20 Figure 2-15. PCB Layout (Top View) __________________________________________ 21 Figure 2-16. Product Label __________________________________________________ 22 Figure 3-1. MatchPort Demo Board Layout ______________________________________ 27 Figure 3-2. Demo Board Block Diagram ________________________________________ 28 Figure 3-3. Schematic ______________________________________________________ 29 List of Tables Table 2-1. RS232 Connections _______________________________________________ Table 2-2. JP6 RS422/485 Connections on Demo board ___________________________ Table 2-3. Absolute Maximum Ratings _________________________________________ Table 2-4. Recommended Operating Conditions _________________________________ Table 2-5. Wireless Specifications ____________________________________________ Table 2-6. Specifications ____________________________________________________ Table 3-1. RS-232 Signals on Serial Port 1 _____________________________________ Table 3-2. RS-422 4-Wire Connector on Serial Port 1 _____________________________ Table 3-3. Demo Board JP1 Jumper Configuration _______________________________ Table 3-4. Demo Board JP7 Jumper Configuration for CON1 _______________________ Table 3-5. Demo Board JP8 Jumper Configuration for CON2 _______________________ Table 3-6. Demo Board JP8 Jumper Configuration for CON2 _______________________ Table 3-7. Demo Board JP5 Jumper Configuration _______________________________ Table 3-8. Demo Board Configurable Pin Jumper Configurations ____________________ MatchPort b/g Pro Integration Guide 13 13 17 17 18 18 24 24 25 25 25 25 26 26 5 1: Introduction About the Integration Guide This guide provides the information needed to integrate the MatchPort b/g ProTM device server within another product. The intended audiences are the engineers responsible for integrating the MatchPort b/g Pro into their product. Additional Documentation The following guides are available on the product CD and the Lantronix Web site (www.lantronix.com) MatchPort b/g Pro User Guide Provides information needed to configure, use, and update the MatchPort b/g Pro firmware. MatchPort b/g Pro Command Reference Lists and explains MatchPort b/g Pro command line and XML commands. MatchPort Demonstration Kit Quick Start Guide Provides information needed to configure, use, and update the MatchPort demonstration kit. MatchPort b/g Pro Integration Guide 6 2: Description and Specifications The MatchPort b/g Pro embedded device server is a complete network-enabling solution on a 1.75"x1.75" PCB. This miniature device server empowers original equipment manufacturers (OEMs) to go to market quickly and easily with networking and web page serving capabilities built into their products. The MatchPort b/g Pro has the following features: Power Supply: Single regulated 3.3V input required. On board step down conversion. LC filtering to minimize noises and emissions on all supply lines. Controller: A Lantronix DSTni-FX 32-bit microprocessor, running at 166 MHz internal bus and 83 MHz external bus. Memory: 64 Mbits Flash and 64 Mbits SDRAM. Wireless LAN: 802.11bg compliant radio with U.FL connector for external antenna. 802.11i and 802.1X security standards supported. Ethernet: 10/100 Base TX with auto-negotiation and HP auto-MDIX. On- board 100-ohm terminations included. External RJ45 jack and 1:1 Ethernet magnetics with a minimal numbers of discrete components required. Network interface status indication: On board WLAN and Ethernet LED drivers. Serial Ports: Two full duplex serial ports with hardware flow control and modem control handshaking signals. Standard or customized baud rates up to 230 Kbps. External level shifters for RS232. Port 1 can also be configured to drive RS422 or RS485 level shifters. Configurable IO Pins (CPs): Up to 7 pins are configurable as general purpose I/Os. Interface Signals: 3.3V-level interface signals. Temperature Range: Operates over an extended temperature range. MatchPort b/g Pro Block Diagram The following drawing is a block diagram of the MatchPort b/g Pro showing the relationships of the components. MatchPort b/g Pro Integration Guide 7 2: Description and Specifications Figure 2-1. MatchPort b/g Pro Block Diagram MatchPort b/g Pro Integration Guide 8 2: Description and Specifications MatchPort b/g Pro Pinouts There are two headers of 1x20, 2-mm pin spacing. The odd row header is designated as P1; pins are numbered 1 to 39. The even row header is designated as P2; pins are numbered 2 to 40. PIN # NAME Dir Active level FUNCTION P1.1 P1.3 P1.5 P1.7 P1.9 P1.11 P1.13 P1.15 P1.17 P1.19 P1.21 P1.23 P1.25 P1.27 P1.29 P1.31 P1.33 P1.35 P1.37 P1.39 RESETIN# RSTTODFLT TX1 RTS1 RX1 CTS1 CP1 CP2 CP3 CP4 TX2 RTS2 RX2 CTS2 CP5 CP6 CP7 RSVD S3.3V GND I I O O I I IO IO IO IO O O I I IO IO IO Low Low Reset. Leave floating if not used. Reset to Defaults Transmit Data, port 1 Request to Send, port 1 Receive Data, port 1 Clear to Send, port 1 IO Configurable Pin 1 IO Configurable Pin 2 IO Configurable Pin 3 IO Configurable Pin 4 Transmit Data, port 2 Request to Send, port 2 Receive Data input , port 2 Clear to Send input , port 2 IO Configurable Pin 5 IO Configurable Pin 6 IO Configurable Pin 7 Reserved. Do not connect 3.3V Power Input Ground PIN # NAME Dir Active level FUNCTION P2.2 P2.4 P2.6 P2.8 P2.10 P2.12 P2.14 P2.16 P2.18 P2.20 P2.22 P2.24 P2.26 P2.28 P2.30 P2.32 P2.34 P2.36 P2.38 P2.40 GND RSVD ETX+ ETXETCT ERCT ERX+ ERXE_LINKLED E_ACTLED W_LINKLED BOOTP_EN# RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD I Low Low Low Low Ground Reserved. Do not connect PHY's Differential Ethernet Transmit Data + PHY's Differential Ethernet Transmit Data Differential Ethernet Transmit Data Center Tap Differential Ethernet Receive Data Center Tap PHY's Differential Ethernet Receive Data + PHY's Differential Ethernet Receive Data Ethernet Link LED. Ethernet Activity LED. Wireless LAN Link/Activity LED. Active low Network Boot and Boot Loader Enable. Reserved. Do not connect Reserved. Do not connect Reserved. Do not connect Reserved. Do not connect Reserved. Do not connect Reserved. Do not connect Reserved. Do not connect Reserved. Do not connect I I O O I I O O O IO Power and Ground The MatchPort b/g Pro requires a regulated 3.3Vdc +/- 5% power input at P1.37 and ground at pin P1.39. MatchPort b/g Pro Integration Guide 9 2: Description and Specifications Note: To minimize noises as well as voltage drops at the connection, We recommend direct connection of 3.3V and ground on the MatchPort b/g Pro to 3.3V power and ground planes of the target board in place of heavy trace routing. Reset The MatchPort b/g Pro reset pin RESETIN# is an input-only pin and connects to an 811type reset IC. This input is for a pushbutton switch type manual reset. If no external reset control is desired, leave this pin floating. Minimum reset pulse is 2 ms. There is an on board capacitor, 0.1uF to ground, at the RESETIN# to filter out transient voltages. However, it is a good practice to have RESETIN# trace on the target board as short as possible to avoid reset occurrences when transient voltages such as those caused by ESD are present. Ethernet Connections The MatchPort b/g Pro provides Ethernet interface transmit ETX and receive data ERX connections from a PHY device. Thus, before presenting signals to the outside world using an RJ45 jack, a 1:1 Ethernet Magnetics is needed to interface and to isolate the unit. A recommended connection diagram to an RJ45 jack with integrated 1:1 Ethernet magnetics is shown below. Figure 2-2. Connection Diagram to an RJ45 Jack We recommend a low capacitance TVS diode array such as a Semtech SRV05-4 at ETX+, ETX-, ERX+, ERX- if frequent transient voltages are present. MatchPort b/g Pro Integration Guide 10 2: Description and Specifications Ethernet LED Connections The E_LINKLED and E_ACTLED signals are driven by the PHY. They are active low. Recommended connections on the target board are shown below. Figure 2-3. Recommended LED Connections Warning: The MatchPort b/g Pro has two 4.7K pull-ups on the E_LINKLED and E_ACTLED signals to set up the PHY's LED Indicator Mode as Ethernet Link and Activities at Power On Reset (POR). Do not connect these two signals with any pull-down resistors as they may corrupt the logic level on these two signals at POR, causing undesired operation. Wireless LED Connections The W_LINKLED is driven by the Radio Module. Active low. Open drain. 10mA max. Recommended connections on the target board are shown below. The LED is activated when either the receiver or transmitter is active. With WLAN power management disabled, the receiver is always active when the transmitter is not and thus the LED always on when WLAN is the enabled interface. With WLAN power management enabled, receiver and transmitter are turned on selectively and thus the LED flickers. Figure 2-4. Recommended LED Connections Antenna Mating Connector An antenna connection is made via the U.FL style connector on the MatchPort. Lantronix offers two cable options, reverse-SMA to U.FL (P/N 500-180-R) or U.FL to U.FL (P/N 500-181-R). MatchPort b/g Pro Integration Guide 11 2: Description and Specifications Figure 2-5. Reverse-SMA to U.FL (P/N 500-180-R) Figure 2-6. U.FL to U.FL Cable (P/N 500-181-R) Note: The antenna cable is included in the MatchPort b/g Pro sample. For production, it can be purchased from Lantronix or a cable supplier. Figure 2-7. R-SMA Antenna Connector Dimensions (not to scale) Antenna The MatchPort b/g Pro has been FCC certified with a 5-dBi gain antenna for wireless 802.11b/g. It is for applications with antennas of equal gain or less. The following are two of the recommended antennas with 2.15-dBi gain and a link to their vendor. They are available from Lantronix as well. Wanshih WSS003 (Lantronix part number 930-029-R) Wanshih WSS002 (Lantronix part number 930-033-R) www.wanshih.com MatchPort b/g Pro Integration Guide 12 2: Description and Specifications Serial Input/Output The unit has two RS232 compatible serial ports supporting data rates up to 230 Kbps. They include dedicated RTS and CTS hardware flow control signals. Configurable Pins can be configured to function as DTR and/or DCD. Serial Port 1 can also be configured for RS422/485. RTS is used as TX enable. Configurable Pins can be configured to function as RS232/RS485 driver selection control and/or half/full duplex driver selection. The serial module interface employs 3.3V CMOS logic levels, requiring external level shifters for full RS232/485/422 compliance The MatchPort Demo Board includes these line drivers and DTE style DB9 connectors. Table 2-1. RS232 Connections MatchPort b/g Pro DCE Connector DTE Connector Signal (Logic) RXD1 TXD1 RTS1 CTS1 CPx CPy DB9 DB25 Signal DB9 DB25 Signal 2 3 7 8 1 4 3 2 4 5 8 20 RXD1 TXD1 RTS1 CTS1 DCD DTR 3 2 8 7 4 1 2 3 5 4 20 8 TXD1 RXD1 CTS1 RTS1 DTR DCD Description Data In Data Out H/W Flow Control Output H/W Flow Control Input Modem Control Input Modem Control Output Note: CPx and CPy are any of the available CPs. Table 2-2. JP6 RS422/485 Connections on Demo board MatchPort b/g Pro Signal (logic) Description RS485 Signal JP6 Pin DB25 4 Wire DB25 2 Wire DB9 4 wire DB9 2 wire TXD1 TXD1 RXD1 RXD1 RTS1 CP3 CP4 Data Out Data Out Data In Data In TX Enable RS485 Select RS485 2-wire TX+485 TX-485 RX+485 RX-485 4 3 2 1 14 15 21 22 14 15 14 15 7 3 2 8 7 3 7 3 Sample Layouts for RS485 Connectivity Figure 2-8. Combined RS232/422 Transceiver MatchPort b/g Pro Integration Guide 13 2: Description and Specifications Figure 2-9. Separate RS232/422 Transceivers MatchPort b/g Pro Integration Guide 14 2: Description and Specifications Figure 2-10. Separate RS422 Transceivers for 2-Wire and 4-Wire Setups To protect the MatchPort b/g Pro and circuitry on the target board against ESD at serial ports, the selected transceiver(s) should have RS232/422/485 bus-pin ESD protection (typically around 15 KV) either on-chip or by external diode arrays. IO Configurable Pins (CPs) There are up to seven CPs if no DTR or DCD is used on the serial ports. All CPs have internal pull-up resistors, but the value differs. See table. CPs can be configured for special functions, like DTR, DCD, RS232/RS485 selection or as general purpose Input or Output (pollable/controllable via CLI or Web Manager). For more information see the User Guide. MatchPort b/g Pro Integration Guide PIN # NAME FUNCTION P1.13 P1.15 P1.17 P1.19 P1.29 P1.31 P1.33 CP1 CP2 CP3 CP4 CP5 CP6 CP7 IO Configurable Pin 1 IO Configurable Pin 2 IO Configurable Pin 3 IO Configurable Pin 4 IO Configurable Pin 5 IO Configurable Pin 6 IO Configurable Pin 7 15 2: Description and Specifications BOOTP_EN# The BOOTP_EN# pin performs two functions simultaneously. It drives an optional external diagnostics LED to indicate the status of the bootloader. It also serves as input to enable booting from the network when no valid FW image is found in FLASH. BOOTP enable Holding BOOTP_EN# low (via switch or jumper) during and up to 10 seconds after a reset allows booting the device with a FW image on a TFTP server only in case no valid image is present on FLASH. The MatchPort b/g Pro will issue a BOOTP request to acquire an IP address for itself, the IP address of a TFTP server, and the filename of the FW image on the TFTP server. Then it will fetch that file via TFTP, verify, and execute it. Diagnostics LED After supplying power to the unit or pressing and releasing the reset button, the diagnostics LED turns on and stays on while the bootloader is running and does not encounter any errors. After the bootloader loads firmware from serial, network or FLASH, it turns off the LED right before handing over execution. In case an error occurs during the bootloader operation, it will flash the LED. The pattern will be pause, X * long flashes, Y * short flashes, pause, X long flashes, etc. X is the first digit of the error number and Y the second. Following are the currently implemented errors: INVALID_BOOTLOADER_CHECKSUM NO_FLASH_IMAGE_FOUND BAD_FLASH_IMAGE_FOUND BAD_COMMAND_PARAMETER NO_BOOTP_RESPONSE BAD_BOOTP_RESPONSE NO_BOOTP_TFTP_IMAGE RECEPTION_TIMEOUT RECEPTION_OVERRUN IMAGE_OVERSIZE BAD_IMAGE_CHECKSUM BAD_IMAGE_DESTINATION INTERNAL_CODING_PROBLEM 11 12 13 14 15 16 17 18 19 21 22 23 24 Pin Connection Options The circuit below is an example on how to correctly connect a switch (or permanent jumper) and an LED to the BOOTP_EN# pin. The customer has the option of implementing either the switch/resistor or the driver/LED or both or none. The switch can be replaced by a jumper or hardwire. Having the hardwire in place means that if the firmware image in FLASH becomes corrupt, the MatchPort b/g Pro will automatically send out BOOTP requests over the network. This could be a security risk. The switch or jumper allows BOOTP requests to be sent only after manual intervention. If no switch/jumper/hardwire is installed, network recovery is only possible by issuing a!NL command over the serial port. MatchPort b/g Pro Integration Guide 16 2: Description and Specifications Figure 2-11. BOOTP_EN# APPLICATION CIRCUIT Electrical Specifications Caution: Stressing the device above the rating listed in this table may cause permanent damage to the MatchPort b/g Pro. Exposure to Absolute Maximum Rating conditions for extended periods may affect the MatchPort b/g Pro's reliability. Table 2-3. Absolute Maximum Ratings Parameter Symbol Min Max Units Supply Voltage CP Voltage Ethernet ETX+, ETX-, ERX+, ERXVoltage Operating Temperature Storage Temperature VCC VCP VETH 3.135 -0.3 0 3.6 VCC +0.05 VCC +0.3 Vdc Vdc Vdc -40 -40 70 85 o o C C Table 2-4. Recommended Operating Conditions Parameter Symbol Min Typical Max Units Supply Voltage Supply Voltage Ripples Supply Current _ Power Management enabled Supply Current _ Power Management disabled Supply Current (Peak) Supply Reset Threshold CP Pull-ups, except CP5 CP5 Pull-up CP, RX, CTS, BOOTP_EN# Input Low Voltage CP, RX, CTS, BOOTP_EN# Input High Voltage CP, TX, RTS Output Low Voltage (IOL = 4 mA) CP, TX, RTS Output High Voltage (IOH = -4 mA) VCC VCC_PP ICC 3.135 3.3 3.45 2 245 Vdc % mA 260 mA MatchPort b/g Pro Integration Guide VRST RPU RPU VCP_IL 2.85 VCP_IH 2 VCP_OL VCP_OH VCC 0.4 350 2.93 100 20 0.8 mA Vdc Kohm Kohm Vdc 0.4 Vdc (see note below) Vdc 3.00 Vdc (see note below) 17 2: Description and Specifications Parameter Symbol E_LINKLED, E_ACTLED Current Drive (sink) W_LINKLED IELED Min Typical 12 10 Max Units mA (see note below) mA Notes: Do not connect a pull-down resistor on E_LINKLED and E_ACTLED. All pins are not 5V-tolerant. Wireless Specifications Refer to the following table for the MatchPort b/g Pro's wireless specifications: Table 2-5. Wireless Specifications Category IEEE 802.11b/g Frequency Range Output Power 2.400 - 2.484 GHz 14 +2.0/- 1.5 dBm 1, 2, 5.5, 11 Mbps 12 +/- 1.5 dBm 6, 9, 12 Mbps RF, U-FL TYPE HIROSE PN = U_FL-R-SMT-10 1,2,5.5,11,6,9,12,18,24,36,48,54 Mbps US 1-11 CA 1-11 JP 1-14 FR 10-13 SP 10-11 OT 1-13 (OT=Others) DSSS,DBPSK,DQPSK,CCK, OFDM, 16QAM, 64QAM WEP, WPA, WPA2/802.11i, EAPTLS, EAP-TTLS, PEAP, LEAP -10 dBm (with PER < 8%) -69 dBm for 54 Mbps -88 dBm for 11 Mbps -85 dBm for 6 Mbps -91 dBm for 1.0 Mbps Max 10 mA Antenna Connector Data Rates Radio Number of Selectable Subchannels Modulation Security Maximum Receive Level Receiver Sensitivity W_LINKLED Current Technical Specifications Table 2-6. Specifications Category CPU Memory Firmware Configuration Pins Reset Circuit Serial Interface Serial Line Formats Modem Control MatchPort b/g Pro Lantronix DSTni-FX 32-bit Microprocessor, 166 MHz internal bus, 83 MHz external bus 64 Mbits Flash and 64 Mbits SDRAM Upgradeable via TFTP, FTP, and the Web Up to 7 pins if no DTR or DCD is used on serial ports. RESETIN# is low active and push-button type. Minimum RESETIN# pulse width is 2 ms at IIL = -500 A. Reset is also triggered if 3.3V at pin P1.37 drops below 2.93V typically. CMOS (Asynchronous) 3.3V - level signals Speed software selectable and customizable (300 bps to 230400 bps) 7 or 8 data bits, 1-2 Stop bits, Parity: odd, even, none DTR, DCD using CPs MatchPort b/g Pro Integration Guide 18 2: Description and Specifications Category MatchPort b/g Pro Flow Control Network Interfaces XON/XOFF (software), CTS/RTS (hardware), none Ethernet 10/100 base TX with Auto Negotiation, and HP Auto MDIX IEEE802.11bg, with IEEE802.11i/PSK/EAP security. ARP, UDP, TCP, Telnet, ICMP, SNMP, DHCP, BOOTP,, HTTP, HTTPS, SMTP, TFTP, FTP, SSL/TLS, SSH, LPD, PPP, Syslog, DNS, RSS, XML Internal web server, SNMP Serial login, Telnet login (SSH optional), DeviceInstaller utility, Serves web pages. Either from built in web manager or custom pages in onboard FLASH filesystem. FLASH filesystem with 2.5 MB capacity Password protection, locking features 0.35 W with Radio and CPU Power Management enabled 0.9 W with Radio and CPU Power Management disabled Protocols Supported Management Internal Web Server Custom storage Security Average Power Consumption (at 3.3V) Weight Cover Material Temperature Warranty Included Software 1 oz (28 g) ABS Operating range: -40C to +70C (-40F to +158F) Storage range: -40C to +85C (-40F to 185F) 2-year limited warranty WindowsTM 98/NT/2000/XP-based Device Installer configuration software and WindowsTM-based Com Port Redirector and Secure Com Port Redirector, DeviceInstaller, and Web-Manager. Dimensions The MatchPort b/g Pro dimensions are shown in the following diagrams: Figure 2-12. Side Views MatchPort b/g Pro Integration Guide 19 2: Description and Specifications Figure 2-13. Top View Figure 2-14. Bottom View MatchPort b/g Pro Integration Guide 20 2: Description and Specifications Recommended PCB Layout The hole pattern and mounting dimensions for the MatchPort b/g Pro device server are shown in the following drawing: Figure 2-15. PCB Layout (Top View) Note: If a socket is used for product development purpose only, two 2-mm, 20-pin sockets spaced 1.42" apart can be used (e.g., Samtec P/N SMM-120-02-S-S-TR). To optimize noise and cross-talk reduction, noise immunity, and impedance matching on ETX+, ETX-, ERX+, ERX-, follow these guidelines when routing traces on the target PCB: - - - - Route (ETX+, ETX-) pair as close to each other as possible, and far away from ERX+, ERX- and other signals Route (ERX+, ERX-) pair as close to each other as possible, and far away from ETX+, ETX- and other signals Set up PCB routing properties on each pair (ETX+, ETX-) and (ERX+, ERX-) to achieve 100-ohm impedance. For EMI purposes, connect the metal housing (shield) of the RJ45 jack to Power Ground or Earth Ground and do not allow floating. If power ground and earth ground are to be separated, add ceramic capacitors in the range of 1000 pF to 0.1 uF in a stitching pattern between the two grounds to provide low impedance paths at high frequencies. The voltage rating on the ceramic capacitors should be much higher than the required isolation voltage between the two grounds. Connect 3.3V and ground on the MatchPort b/g Pro directly to 3.3V power and ground planes of the target board in place of heavy trace routing. This will minimize noises as well as voltage drops due to the trace. Make the RESETIN# trace on the target board as short as possible to avoid reset occurrences when transient voltages such as those caused by ESD are present. MatchPort b/g Pro Integration Guide 21 2: Description and Specifications Product Information Label The product information label contains important information about your specific unit, such as its product ID (name), bar code, part number, and MAC address. Figure 2-16. Product Label Part Number MatchPort b/g Pro Integration Guide MAC Address Revision Manufacturing Code 22 3: Demonstration Kit Using a MatchPort b/g Pro sample and the MatchPort Demonstration Kit, you can get familiar with the product and understand how to integrate the MatchPort b/g Pro into a given product design. Contents of the Kit The MatchPort Demonstration Kit contains the following items: MatchPort Demo Board 3.3V wall adaptor RS-232 cable, DB9F/F, null modem RJ45 Ethernet cable Antenna 2.15 dBi gain You must obtain a MatchPort b/g Pro sample separately for use with this Demonstration Kit. Note: For developing custom application firmware on the MatchPort b/g Pro, Lantronix offers a MatchPort Plus Development board with a Background Debug Mode (BDM) connector together with a Software Development Kit (SDK). Please contact Lantronix for more details. Demo Board Description The MatchPort Demo Board provides a test platform for the Lantronix MatchPort device server products, including MatchPort b/g Pro. The demo board uses 3.3V power from the wall adaptor same as that of MatchPort. The demo board has the following features 2 serial ports with RS232/RS422/RS485 Maxim MAX3160 transceivers. The ports have DB9M connectors. 1 RJ45 with integrated 1:1 magnetics for Ethernet connection; auto-MDIX compatible. Access to all signals on the MatchPort via header pins for measurements and connections to other places. MatchPort b/g Pro Integration Guide 23 3: Demonstration Kit Serial Interfaces The demo board has RS-232/422/485 transceivers, one per port. However, note that only Serial Port 1 supports RS232/RS422/485 on MatchPort b/g Pro. The table below lists the RS232 signals and corresponding pins on the demo board. All signals are level-shifted by the transceivers. Table 3-1. RS-232 Signals on Serial Port 1 MatchPort Demo PIN FUNCTION DB9 Pin # Serial Port 1 TX1_232 (Data Out) RX1_232 (Data In) CTS1_232 (HW Flow Control Input) RTS1_232 (HW Flow Control Output) DCD1_232 (Modem Control Input) DTR1_232 (Modem Control Output) GND (Ground) CON1 3 2 8 7 1 4 5 Table 3-x. RS-232 Signals on Serial Port 2 MatchPort Demo PIN FUNCTION DB9 Pin # Serial Port 2 TX2_232 (Data Out) RX2_232(Data In) CTS2_232 (HW Flow Control Input) RTS2_232 (HW Flow Control Output) DCD2_232 (Modem Control Input) DTR2_232 (Modem Control Output) GND (Ground) CON2 3 2 8 7 1 4 5 Table 3-2. RS-422 4-Wire Connector on Serial Port 1 MatchPort Demo PIN FUNCTION DB9 Pin # Serial Port 1 TX+485 (Data Out) TX-485 (Data Out) RX+485 (Data In) RX-485 (Data In) GND (Ground) CON1 7 3 2 8 5 Power Supply The demo board uses an external 3.3V regulated supply (included with kit). General Control The following tables denote the jumper options of the demo board for use with the MatchPort b/g Pro. MatchPort b/g Pro Integration Guide 24 3: Demonstration Kit Configuration Switch Bank Table 3-3. Demo Board JP1 Jumper Configuration JP1 pin/Signal JP1 pin/Signal Function 1/CP1 3/CP2 5/CP3 7/CP4 9/CP5 11/CP6 13/CP7 2/LED12 4/LED11 6/LED10 8/LED9 10/LED8 12/LED7 14/LED6 Jumper 1-2, CP1 Controls LED12 Jumper 3-4, CP2 Controls LED11 Jumper 5-6, CP3 Controls LED10 Jumper 7-8, CP4 Controls LED9 Jumper 9-10, CP5 Controls LED8 Jumper 11-12, CP6 Controls LED7 Jumper 13-14, CP7 Controls LED6 Table 3-4. Demo Board JP7 Jumper Configuration for CON1 JP7 pin/Signal JP7 pin/Signal Function 1/TXD1 3/RTS1 2/TXA 4/RTSA 5/CP3 6/SEL4XXA 7/RXD1 9/CTS1 11/CP4 8/RXA 10/CTSA 12/HDPX4XXA 13/CP1 15/CP2 14/DTRA 16/DCDA Jumper 1-2, Send TXD to RS232/485 transceiver. Jumper 3-4, Send RTS to RS232/485 transceiver. In 485 mode RTS controls transmit enable. Jumper 5-6, CP3 high selects 485 mode, low 232 mode. Pin at transceiver is pulled down to default to 232 mode. Jumper 7-8, Receive RXD from RS232/485 transceiver. Jumper 9-10, Receive CTS from RS232 transceiver. Jumper 11-12. In 485 mode, CP4 selects full duplex when low and half-duplex when high. Pin at transceiver is pulled down to default to full duplex. Jumper 13-14, CP1 drives DTR to RS232 transceiver. Jumper 15-16, CP2 receives DCD from RS232 transceiver. Table 3-5. Demo Board JP8 Jumper Configuration for CON2 JP7 pin/Signal JP7 pin/Signal Function 1/TXD2 3/RTS2 5/CP7 2/TXB 4/RTSB 6/SEL4XXB 7/RXD2 9/CTS2 11/RESERVED on MatchPort b/g Pro 13/CP5 15/CP6 8/RXB 10/CTSB 12/HDPX4XXB Jumper 1-2, Send TXD to RS232 transceiver. Jumper 3-4, Send RTS to RS232 transceiver. Do not add jumper since only RS232 is supported. Pin at transceiver is pulled down to default to 232 mode. Jumper 7-8, Receive RXD from RS232 transceiver. Jumper 9-10, Receive CTS from RS232 transceiver. Do not add jumper since only RS232 is supported. Pin at transceiver is pulled down to default to 232 mode. 14/DTRB 16/DCDB Jumper 13-14, CP5 drives DTR to RS232 transceiver. Jumper 15-16, CP6 receives DCD from RS232 transceiver. Table 3-6. Demo Board JP8 Jumper Configuration for CON2 JP7 pin/Signal JP7 pin/Signal Function 1/TXD2 3/RTS2 5/CP7 2/TXB 4/RTSB 6/SEL4XXB 7/RXD2 9/CTS2 11/RESERVED on MatchPort 8/RXB 10/CTSB 12/HDPX4XXB Jumper 1-2, Send TXD to RS232 transceiver. Jumper 3-4, Send RTS to RS232 transceiver. Do not add jumper since only RS232 is supported. Pin at transceiver is pulled down to default to 232 mode. Jumper 7-8, Receive RXD from RS232 transceiver. Jumper 9-10, Receive CTS from RS232 transceiver. Do not add jumper since only RS232 is supported. Pin at transceiver is pulled down to default to 232 mode. MatchPort b/g Pro Integration Guide 25 3: Demonstration Kit JP7 pin/Signal JP7 pin/Signal Function b/g Pro 13/CP5 15/CP6 14/DTRB 16/DCDB Jumper 13-14, CP5 drives DTR to RS232 transceiver. Jumper 15-16, CP6 receives DCD from RS232 transceiver. Note: CP allocation in the tables above is the most straightforward for this specific board. However any CP can be assigned to any function. To reflect actual CP use in the eventual product (in case different), jumpers can be replaced with short wires to allow interchanging of connections. Table 3-7. Demo Board JP5 Jumper Configuration Pin/Signal Pin/Signal Function 1/3V3 2/3V3_UUT Jumper 1-2, MatchPort module power supply. Note: Jumper can be replaced with short wire to allow use of a current clamp or <50 milliohm resistor to allow use of voltmeter for current measurements. If using CPs for any combination of the demo board configurations above, please use the appropriate CP function selection as shown in Table 3-3 to Table 3-7. If assigning a CP for any function other than the serial port, remove the jumper for the associated CP pin from JP7 to avoid conflict with the serial port function. Table 3-8. Demo Board Configurable Pin Jumper Configurations Configurable Pin JP1 Function JP7,JP8 Function CP1 CP2 CP3 CP4 CP5 CP6 CP7 LED12 LED11 LED10 LED9 LED8 LED7 LED6 JP7, CON1 DTR JP7, CON1 DCD JP7, CON1 RS485/232 Select JP7, CON1 RS485 Duplex Select JP8, CON2 DTR JP8, CON2 DCD JP8, leave open MatchPort b/g Pro Integration Guide 26 3: Demonstration Kit Demo Board Layout Figure 3-1. MatchPort Demo Board Layout MatchPort b/g Pro Integration Guide 27 3: Demonstration Kit Demo Board Schematics Figure 3-2. Demo Board Block Diagram MatchPort b/g Pro Integration Guide 28 3: Demonstration Kit Figure 3-3. Schematic MatchPort b/g Pro Integration Guide 29 3: Demonstration Kit Figure 3-3. Schematic, continued MatchPort b/g Pro Integration Guide 30 3: Demonstration Kit Figure 3-3. Schematic, continued MatchPort b/g Pro Integration Guide 31 A: Compliance (According to ISO/IEC Guide 17050-1, 17050-2 and EN 45014) Manufacturer's Name & Address: Lantronix 167 Technology Drive, Irvine, CA 92618 USA Product Name Model: MatchPort b/g Pro Embedded Device Server Conforms to the following standards or other normative documents: Safety: UL 60950-1 CAN/CSA-C22.2 No. 60950-1-03 EN 60950-1:2006, Low Voltage Directive (73/23/EEC) EMC & Radio: For purposes of certification, the MatchPort b/g pro was tested as a modular device. CFR Title 47 FCC Part 15, Subpart B and C, Class B FCC Module Approval FCC Identifier: R68MPBGPRO Industry Canada ICES-003 Issue 4 (2004), Class B Industry Canada RSS-Gen Issue 2 (2007) Industry Canada RSS-210 Issue 7 (2007) Industry Canada Module Approval IC: 3867A-MPBGPRO EN 301 489-1 v1.6.1 (2006-07), EMC Directive (1999/5/EC) EN 301 489-17 v.1.2.1 (2002-08), EMC Directive (1999/5/EC) EN 300 328 v1.7.1 (2006-10), R&TTE Directive (1999/5/EC) Australia / New Zealand AS/NZS CISPR 22 (2006), Class B Australia / New Zealand AS/NZS 4771 (2000 + A1:2003) EN55022: 2006 EN55024: 1998 + A1: 2001 + A2: 2003 EN61000-3-2: 2006 EN61000-3-3: 1995 + A1: 2001 Manufacturer's Contact: Director of Quality Assurance, Lantronix 167 Technology Drive, Irvine, CA 92618 USA Tel: 949-453-3990 Fax: 949-450-7249 MatchPort b/g Pro Integration Guide 32 B: Warranty For details on the Lantronix warranty replacement policy, go to our web site at www.lantronix.com/support/warranty MatchPort b/g Pro Integration Guide 33