Fiche technique pour MatchPort™ AR Integration Guide de Lantronix, Inc.

LANTQONIX®
MatchPort AR™
Integration Guide
Part Number 900-481
Revision A June 2007
www Iantron com/sugport www amromx om/about/conlact/
MatchPort AR Integration Guide 2
Copyright and Trademark
© 2007 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 AR, 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 95, Windows 98, Windows 2000, Windows NT, and
Windows XP are trademarks of Microsoft Corp. Netscape is a trademark of Netscape
Communications Corporation.
Contacts
Lantronix Corporate Headquarters
15353 Barranca Parkway
Irvine, CA 92618, USA
Phone: 949-453-3990
Fax: 949-453-3995
Technical Support
Online: 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/
MatchPort AR™ Integration Guide 3
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 AR, 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 AR hardware.
For further details, please see the MatchPort AR OEM firmware license
agreement.
Date Rev. Comments
June A Initial Release
MatchPort AR Integration Guide 4
Contents
1: Introduction 6
About the Integration Guide________________________________________________6
Additional Documentation _________________________________________________6
2: Description and Specifications 7
MatchPort AR Block Diagram ______________________________________________8
MatchPort AR Pinouts_________________________________________________________9
Power and Ground ______________________________________________________9
Reset _________________________________________________________________9
Ethernet Connections ___________________________________________________10
Ethernet LED Connections _______________________________________________11
Serial Input/Output______________________________________________________11
Sample Layouts for RS485 Connectivity _____________________________________12
IO Configurable Pins (CPs) _______________________________________________13
BOOTP_EN#__________________________________________________________14
BOOTP enable _____________________________________________________________14
Diagnostics LED ____________________________________________________________14
Pin Connection Options ______________________________________________________14
Electrical Specifications__________________________________________________15
Specifications _________________________________________________________16
Dimensions ___________________________________________________________17
Recommended PCB Layout ______________________________________________19
Product Information Label ________________________________________________20
3: Demonstration Kit 21
Contents of the Kit ______________________________________________________21
Demo Board Description _________________________________________________21
Serial Interfaces________________________________________________________22
Power Supply _________________________________________________________22
General Control ________________________________________________________22
Configuration Switch Bank _______________________________________________23
Demo Board Layout_____________________________________________________24
Demo Board Schematics_________________________________________________25
Compliance Information__________________________________________________29
Warranty _____________________________________________________________30
MatchPort AR™ Integration Guide 5
List of Figures
Figure 2-1. MatchPort AR Top and Front Views.......................................................................... 8
Figure 2-2. MatchPort AR Block Diagram.................................................................................... 8
Figure 2-3. Connection Diagram to an RJ45 Jack ..................................................................... 10
Figure 2-4. Recommended LED Connections ........................................................................... 11
Figure 2-5. Combined RS232/422 Transceiver ......................................................................... 12
Figure 2-6. Separate RS232/422 Transceivers ......................................................................... 12
Figure 2-7. Separate RS422 Transceivers for 2-Wire and 4-Wire Setups ................................13
Figure 2-8. BOOTP_EN# APPLICATION CIRCUIT................................................................... 15
Figure 2-9. Side Views ............................................................................................................... 17
Figure 2-10. Top View................................................................................................................ 18
Figure 2-11. Bottom View........................................................................................................... 18
Figure 2-12. PCB Layout (Top View) ......................................................................................... 19
Figure 2-13. Product Label......................................................................................................... 20
Figure 3-1. MatchPort Demo Board Layout ............................................................................... 24
Figure 3-2. Demo Board Block Diagram .................................................................................... 25
Figure 3-3. Schematic ................................................................................................................ 26
List of Tables
Table 2-1. RS232 Connections .................................................................................................. 11
Table 2-2. JP6 RS422/485 Connections on Demo board.......................................................... 12
Table 2-3. Absolute Maximum Ratings ...................................................................................... 15
Table 2-4. Recommended Operating Conditions....................................................................... 15
Table 2-5. Specifications........................................................................................................... 16
Table 3-1. RS-232 Signals on Serial Port 1 ...............................................................................22
Table 3-2. RS-422 4-Wire Connector on Serial Port 1 ..............................................................22
Table 3-3. Demo Board JP1 Jumper Configuration ................................................................... 23
Table 3-4. Demo Board JP7 Jumper Configuration for CON1................................................... 23
Table 3-5. Demo Board JP5 Jumper Configuration ................................................................... 24
www.|antronix.com
MatchPort AR Integration Guide 6
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About the Integration Guide
This guide provides the information needed to integrate the MatchPort AR™ device
server within another product. The intended audiences are the engineers responsible
for integrating the MatchPort AR into their product.
Notes:
The MatchPort AR Demo Kit provides hardware and firmware for customer
evaluation. The complete kit includes a Module Universal Demo Kit
(Lantronix PN MP10010NMK-01) and a MatchPort AR sample (Lantronix PN
FP300200S-01)
For developing application firmware on MatchPort AR, there is a MatchPort
Plus Development board with a Background Debug Mode (BDM) connector.
Please contact Lantronix for more details.
Additional Documentation
The following guides are available on the product CD and the Lantronix Web site
(www.lantronix.com)
MatchPort AR User Guide Provides information needed to configure, use,
and update the MatchPort AR firmware.
MatchPort AR Command
Reference
Lists and explains MatchPort AR command line
and XML commands.
MatchPort AR Quick Start Briefly explains the basics to get the MatchPort
AR up and running.
MatchPort Demonstration
Kit Quick Start Guide
Provides information needed to configure, use,
and update the MatchPort demonstration kit.
MatchPort AR Integration Guide 7
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The MatchPort AR 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 AR has the following features:
Power Supply: Regulated 3.3V input required. There is a step-down
converter to 1.5 volts for the processor core. All voltages have LC filtering to
minimize noises and emissions.
Controller: A Lantronix DSTni-FX 32-bit microprocessor, running at 166
MHz internal bus and 83 MHz external bus.
Memory: 4 MB Flash and 8 MB SDRAM, and can be expanded. Please
contact your sales representative if you need higher memory densities.
Ethernet: 10/100 Base TX with auto-negotiation and HP auto-MDIX. On-
board 100-ohm terminations included. Users just need an RJ45 jack and 1:1
Ethernet magnetics with a minimal numbers of discrete components.
Integrated Ethernet LED Drivers: For connections to Ethernet Link and
Activities LEDs.
Serial Ports: Two full RS232 serial ports with all hardware handshaking
signals. Baud rates can be standard or customized up to 230 Kbps.
RS232/422/RS485 functionalities can also be configured on Serial Port 1.
Configurable IO Pins (CPs): Up to 7 pins are configurable as general
purpose I/Os if no DTR or DCD is used on serial ports.
Interface Signals: 3.3V-level interface signals.
Temperature Range: Operates over an extended temperature range.
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2:Description and Specifications
MatchPort AR™ Integration Guide 8
Figure 2-1. MatchPort AR Top and Front Views
MatchPort AR Block Diagram
The following drawing is a block diagram of the MatchPort AR showing the
relationships of the components.
Figure 2-2. MatchPort AR Block Diagram
2:Description and Specifications
MatchPort AR™ Integration Guide 9
MatchPort AR 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 FUNCTION PIN
#
NAME FUNCTION
P1.1 RESETIN# Active low Reset. Leave
floating if not used.
P2.2 GND Ground
P1.3 RSVD Reserved. Do not connect P2.4 NC No Connect
P1.5 TX1 Transmit Data output (logic
level), port 1
P2.6 ETX+ PHY’s Differential Ethernet
Transmit Data +
P1.7 RTS1 Request to Send output
(logic level), port 1
P2.8 ETX- PHY’s Differential Ethernet
Transmit Data -
P1.9 RX1 Receive Data input (logic
level), port 1
P2.10 ETCT Differential Ethernet Transmit
Data Center Tap
P1.11 CTS1 Clear to Send input (logic
level), port 1
P2.12 ERCT Differential Ethernet Receive
Data Center Tap
P1.13 CP1 IO Configurable Pin 1 P2.14 ERX+ PHY’s Differential Ethernet
Receive Data +
P1.15 CP2 IO Configurable Pin 2 P2.16 ERX- PHY’s Differential Ethernet
Receive Data -
P1.17 CP3 IO Configurable Pin 3 P2.18 E_LINKLED Connect to Link LED. 3.3V
level. Active low.
P1.19 CP4 IO Configurable Pin 4 P2.20 E_ACTLED Connect to Acitivities LED. 3.3V
level. Active low.
P1.21 TX2 Transmit Data output (logic
level), port 2
P2.22 RSVD Reserved. Do not connect
P1.23 RTS2 Request to Send output
(logic level), port 2
P2.24 BOOTP_EN# Network Boot and Boot Loader
Enable pin.
P1.25 RX2 Receive Data input (logic
level), port 2
P2.26 RSVD Reserved. Do not connect
P1.27 CTS2 Clear to Send input (logic
level), port 2
P2.28 RSVD Reserved. Do not connect
P1.29 CP5 IO Configurable Pin 5 P2.30 RSVD Reserved. Do not connect
P1.31 CP6 IO Configurable Pin 6 P2.32 RSVD Reserved. Do not connect
P1.33 CP7 IO Configurable Pin 7 P2.34 RSVD Reserved. Do not connect
P1.35 RSVD Reserved. Do not connect P2.36 RSVD Reserved. Do not connect
P1.37 S3.3V 3.3V Power Input P2.38 RSVD Reserved. Do not connect
P1.39 GND Ground P2.40 RSVD Reserved. Do not connect
Power and Ground
The MatchPort AR requires a regulated 3.3Vdc +/- 5% power input at P1.37 and
ground at pin P1.39.
Direct connection of 3.3V and ground on MatchPort AR to 3.3V power and ground
planes of the target board is recommended in place of heavy trace routing to
minimize noises as well as voltage drops at the connection.
Reset
The MatchPort AR reset pin RESETIN# is an input-only pin and connects to an 811-
type reset IC. This input is for a pushbutton switch type manual reset. If no external
reset control is desired, leave this pin floating.
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2:Description and Specifications
MatchPort AR™ Integration Guide 10
There is an on board capacitor, 0.1uF to ground, at the RESETIN# to filter out
transient voltages. However, as always, 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 AR 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 2-3. 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.
E_LIIIKLED 22° \\ 3V3 0 E_ACTLED 22° \\ —W_:;_K_A¥
2:Description and Specifications
MatchPort AR™ Integration Guide 11
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 2-4. Recommended LED Connections
Warning: The MatchPort AR 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.
Serial Input/Output
The unit has two serial ports compatible with RS232 serial standards at data rates
up to 230 Kbps. Serial Port 1 can also be configured as RS422/485, but Serial Port 2
cannot. The serial I/O signals are 3.3V CMOS logic level. Serial signals can be
connected to the OEM CPU/UART or RS232/422/485 serial transceivers. For
evaluation and prototype work, it is convenient to have an external RS232 interface
that can connect to the serial port on a PC. The MatchPort Demo Board has
RS232/422/485 transceivers to implement this external interface. If desired, use the
CPs to create a DTE or DCE-style interface using any available CPs. To create these
interfaces, connect the signals according to the tables below.
Note: CPx and CPy are any of the available CPs.
Table 2-1. RS232 Connections
MatchPort AR DCE Connector DTE Connector
Signal
(Logic)
Description
DB9 DB25 Signal DB9 DB25 Signal
RXD1 Data In 2 3 RXD1 3 2 TXD1
TXD1 Data Out 3 2 TXD1 2 3 RXD1
RTS1 H/W Flow Control Output 7 4 RTS1 8 5 CTS1
CTS1 H/W Flow Control Input 8 5 CTS1 7 4 RTS1
CPx Modem Control Input 1 8 DCD 4 20 DTR
CPy Modem Control Output 4 20 DTR 1 8 DCD
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2:Description and Specifications
MatchPort AR™ Integration Guide 12
Table 2-2. JP6 RS422/485 Connections on Demo board
MatchPort
AR Signal
(logic)
Description
RS485
Signal
JP6
Pin
DB25
4
Wire
DB25
2
Wire
DB9
4 wire
DB9
2 wire
TXD1 Data Out TX+485 4 14 14 7 7
TXD1 Data Out TX-485 3 15 15 3 3
RXD1 Data In RX+485 2 21 14 2 7
RXD1 Data In RX-485 1 22 15 8 3
RTS1 TX Enable
CP3 RS485 Select
CP4 RS485 2-wire
Sample Layouts for RS485 Connectivity
Figure 2-5. Combined RS232/422 Transceiver
Figure 2-6. Separate RS232/422 Transceivers
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2:Description and Specifications
MatchPort AR™ Integration Guide 13
Figure 2-7. Separate RS422 Transceivers for 2-Wire and 4-Wire Setups
To protect the MatchPort AR 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. Any CP can
be configured as DTR or DCD as described above. CPs can be configured using web
pages (see the User Guide). All CPs have a pull-up.
PIN # NAME FUNCTION
P1.13 CP1 IO Configurable Pin 1
P1.15 CP2 IO Configurable Pin 2
P1.17 CP3 IO Configurable Pin 3
P1.19 CP4 IO Configurable Pin 4
P1.29 CP5 IO Configurable Pin 5
P1.31 CP6 IO Configurable Pin 6
P1.33 CP7 IO Configurable Pin 7
2:Description and Specifications
MatchPort AR™ Integration Guide 14
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 AR 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 11
NO_FLASH_IMAGE_FOUND 12
BAD_FLASH_IMAGE_FOUND 13
BAD_COMMAND_PARAMETER 14
NO_BOOTP_RESPONSE 15
BAD_BOOTP_RESPONSE 16
NO_BOOTP_TFTP_IMAGE 17
RECEPTION_TIMEOUT 18
RECEPTION_OVERRUN 19
IMAGE_OVERSIZE 21
BAD_IMAGE_CHECKSUM 22
BAD_IMAGE_DESTINATION 23
INTERNAL_CODING_PROBLEM 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 AR 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.
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2:Description and Specifications
MatchPort AR™ Integration Guide 15
Figure 2-8. BOOTP_EN# APPLICATION CIRCUIT
Electrical Specifications
Caution: Stressing the device above the rating listed in this table may cause
permanent damage to the MatchPort AR. Exposure to Absolute Maximum
Rating conditions for extended periods may affect the MatchPort AR's
reliability.
Table 2-3. Absolute Maximum Ratings
Parameter Symbol Min Max Units
Supply Voltage VCC 0 3.6 Vdc
CP Voltage VCP -0.3 VCC +0.05 Vdc
Ethernet ETX+, ETX-, ERX+, ERX-
Voltage
VETH 0 VCC +0.3 Vdc
Operating Temperature -40 85 oC
Storage Temperature -40 85 oC
Table 2-4. Recommended Operating Conditions
Parameter Symbol Min Typical Max Units
Supply Voltage VCC 3.15 3.3 3.46 Vdc
Supply Voltage Ripples VCC_PP 2 %
Supply Current ICC 200 mA
Supply Current (In-Rush) 9/10 A/microsec
Supply Reset Threshold VRST 2.85 2.93 3.00 Vdc
CP Pull-ups, except CP5 RPU 100 Kohm
CP5 Pull-up RPU 20 Kohm
CP, RX, CTS, BOOTP_EN#
Input Low Voltage
VCP_IL 0.8 Vdc
CP, RX, CTS, BOOTP_EN#
Input High Voltage
VCP_IH 2 Vdc
CP, TX, RTS Output Low
Voltage
(IOL = 4 mA)
VCP_OL 0.4 Vdc
CP, TX, RTS Output High
Voltage
(IOH = -4 mA)
VCP_OH V
CC -
0.4
Vdc
E_LINKLED, E_ACTLED
Current Drive (sink)
ILED 12 mA (see note
below)
Note: Do not connect a pull-down resistor on E_LINKLED and E_ACTLED.
2:Description and Specifications
MatchPort AR™ Integration Guide 16
Specifications
Table 2-5. Specifications
Category MatchPort AR
CPU Lantronix DSTni-FX 32-bit Microprocessor, 166 MHz internal
bus, 83 MHz external bus
Memory 4 Mbits Flash and 8 Mbits SDRAM, and can be expanded.
Please contact your Lantronix sales representative if you need
higher memory densities.
Firmware Upgradeable via TFTP and FTP
Configuration Pins Up to 7 pins if no DTR or DCD is used on serial ports.
Reset Circuit RESETIN# is low active and push-button type. Minimum RESETIN#
pulse width is 2 ms at IIL = -500 µA. Reset is also triggered if 3.3V at
pin P1.37 drops below 2.93V typically.
Serial Interface CMOS (Asynchronous) 3.3V - level signals
Speed software selectable and customizable (300 bps to 230400 bps)
Serial Line Formats 7 or 8 data bits, 1-2 Stop bits, Parity: odd, even, none
Modem Control DTR, DCD using CPs
Flow Control XON/XOFF (software), CTS/RTS (hardware), none
Network Interface Ethernet 10/100 base TX with Auto Negotiation, and HP Auto MDIX
Protocols Supported ARP, UDP, TCP, Telnet, ICMP, SNMP, DHCP, BOOTP, Auto IP,
HTTP, HTTPS, SMTP, TFTP, FTP
Management Internal web server, SNMP
Serial login, Telnet login, DeviceInstaller software, SSH
Internal Web Server Serves web pages
WEB storage capacity: approx. 1MB
Security Password protection, locking features
Average Power
Consumption (at
3.3V)
0.67W
Weight 1 Oz (28 g)
Cover Material ABS
Temperature Operating range: -40°C to +70°C (-40°F to +158°F)
Storage range: -40°C to +85°C (-40°F to 185°F)
Warranty 2-year limited warranty
Included Software Windows™ 98/NT/2000/XP-based Device Installer configuration
software and Windows™-based Com Port Redirector and Secure Com
Port Redirector, DeviceInstaller, and Web-Manager.
D 0504 0 079 [2‘00 mm] ‘71 420 [36.07 mmfilL 0.020
2:Description and Specifications
MatchPort AR™ Integration Guide 17
Dimensions
The MatchPort AR dimensions are shown in the following diagrams:
Figure 2-9. Side Views
» 1 750 pm 1 IMIcIoI
2:Description and Specifications
MatchPort AR™ Integration Guide 18
Figure 2-10. Top View
Figure 2-11. Bottom View
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2:Description and Specifications
MatchPort AR™ Integration Guide 19
Recommended PCB Layout
The hole pattern and mounting dimensions for the MatchPort AR device server are
shown in the following drawing:
Figure 2-12. PCB Layout (Top View)
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 AR 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.
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2:Description and Specifications
MatchPort AR™ Integration Guide 20
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 2-13. Product Label
MAC Address
Revision
Manufacturing Code
Part Number
MatchPort AR Integration Guide 21
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Using a MatchPort AR sample and the MatchPort Demonstration Kit, you can get
familiar with the product and understand how to integrate the MatchPort AR 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
You must obtain a MatchPort AR sample separately for use with this
Demonstration Kit.
Note: For developing application firmware on the MatchPort AR, Lantronix
offers a MatchPort Plus Development board with a Background Debug Mode
(BDM) connector. 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 AR. 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 an RS232/RS422/RS485 Maxim MAX3160 transceiver on
each. The ports have DB9M connectors CON1and CON2.
1 RJ45 with integrated magnetics 1:1 for Ethernet connection; auto-MDIX
compatible.
Access to all signals on the MatchPort via header pins for measurements
and connections to other places.
3:Demonstration Kit
MatchPort AR™ Integration Guide 22
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 AR. 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 CON1
TX1_232 (Data Out) 3
RX1_232 (Data In) 2
CTS1_232 (HW Flow Control Input) 8
RTS1_232 (HW Flow Control Output) 7
DCD1_232 (Modem Control Input) 1
DTR1_232 (Modem Control Output) 4
GND (Ground) 5
Table 3-x. RS-232 Signals on Serial Port 2
MatchPort Demo
PIN FUNCTION
DB9
Pin #
Serial Port 2 CON2
TX2_232 (Data Out) 3
RX2_232(Data In) 2
CTS2_232 (HW Flow Control Input) 8
RTS2_232 (HW Flow Control Output) 7
DCD2_232 (Modem Control Input) 1
DTR2_232 (Modem Control Output) 4
GND (Ground) 5
Table 3-2. RS-422 4-Wire Connector on Serial Port 1
MatchPort Demo
PIN FUNCTION
DB9
Pin #
Serial Port 1 CON1
TX+485 (Data Out) 7
TX-485 (Data Out) 3
RX+485 (Data In) 2
RX-485 (Data In) 8
GND (Ground) 5
Power Supply
The demo board uses an external 3.3V regulated supply (included with kit).
General Control
The following tables denote the configuration of the demo board. Configuring the
jumpers re-routes signals on the demo board to drive LEDs (general purpose
outputs), to use as Serial control signals, or to connect to other places on target
board as General Purpose IO (GPIO).
3:Demonstration Kit
MatchPort AR™ Integration Guide 23
Configuration Switch Bank
Table 3-3. Demo Board JP1 Jumper Configuration
JP1 pin/Signal JP1 pin/Signal Function
1/CP1 2/LED12 Jumper 1-2, CP1 Controls LED12
3/CP2 4/LED11 Jumper 3-4, CP2 Controls LED11
5/CP3 6/LED10 Jumper 5-6, CP3 Controls LED10
7/CP4 8/LED9 Jumper 7-8, CP4 Controls LED9
9/CP5 10/LED8 Jumper 9-10, CP5 Controls LED8
11/CP6 12/LED7 Jumper 11-12, CP6 Controls LED7
13/CP7 14/LED6 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 2/TXA Jumper 1-2, Send TXD to RS232/485 transceiver.
3/RTS1 4/RTSA Jumper 3-4, Send RTS to RS232/485 transceiver. In 485 mode
RTS controls transmit enable.
5/CP3 6/SEL4XXA Jumper 5-6, CP3 high selects 485 mode, low 232 mode. Pin at
transceiver is pulled down to default to 232 mode.
7/RXD1 8/RXA Jumper 7-8, Receive RXD from RS232/485 transceiver.
9/CTS1 10/CTSA Jumper 9-10, Receive CTS from RS232 transceiver.
11/CP4 12/HDPX4XXA 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.
13/CP1 14/DTRA Jumper 13-14, CP1 drives DTR to RS232 transceiver.
15/CP2 16/DCDA Jumper 15-16, CP2 receives DCD from RS232 transceiver.
Table 3-xx. Demo Board JP8 Jumper Configuration for CON2
JP7
pin/Signal
JP7
pin/Signal
Function
1/TXD2 2/TXB Jumper 1-2, Send TXD to RS232 transceiver.
3/RTS2 4/RTSB Jumper 3-4, Send RTS to RS232 transceiver.
5/CP7 6/SEL4XXB
Do not add jumper since only RS232 is supported. Pin at
transceiver is pulled down to default to 232 mode.
7/RXD2 8/RXB Jumper 7-8, Receive RXD from RS232 transceiver.
9/CTS2 10/CTSB Jumper 9-10, Receive CTS from RS232 transceiver.
11/RESERVED
on MatchPort
AR
12/HDPX4XXB Do not add jumper since only RS232 is supported. Pin at
transceiver is pulled down to default to 232 mode.
13/CP5 14/DTRB Jumper 13-14, CP5 drives DTR to RS232 transceiver.
15/CP6 16/DCDB Jumper 15-16, CP6 receives DCD from RS232
transceiver.
Note: CP arrangement in the tables above is for demonstration purpose only.
In customers’ applications, any CP can be assigned as a function of DTR or
DCD. All CPs can be used as GPIOs.
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3:Demonstration Kit
MatchPort AR™ Integration Guide 24
Table 3-5. Demo Board JP5 Jumper Configuration
Pin/Signal Pin/Signal Function
1/3V3 2/3V3_UUT MatchPort UUT power input jumper for current measurement. Jumper 1-
2 must be installed to provide power to UUT.
If using CPs for any combination of the demo board configurations above, please use
the appropriate CP function selection as shown in Table 3-5. 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 3-5. Demo Board Configurable Pin Jumper Configurations.
Configurable Pin JP1 Function JP7,JP8 Function
CP1 LED12 JP7, CON1 DTR
CP2 LED11 JP7, CON1 DCD
CP3 LED10 JP7, CON1 RS485/232 Select
CP4 LED9 JP7, CON1 RS485 Duplex Select
CP5 LED8 JP8, CON2 DTR
CP6 LED7 JP8, CON2 DCD
CP7 LED6 JP8, leave open
Demo Board Layout
Figure 3-1. MatchPort Demo Board Layout
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3:Demonstration Kit
MatchPort AR™ Integration Guide 25
Demo Board Schematics
Figure 3-2. Demo Board Block Diagram
* Depends on module used.
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3:Demonstration Kit
MatchPort AR™ Integration Guide 26
Figure 3-3. Schematic
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3:Demonstration Kit
MatchPort AR™ Integration Guide 27
Figure 3-3. Schematic, continued
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3:Demonstration Kit
MatchPort AR™ Integration Guide 28
Figure 3-3. Schematic, continued
MatchPort AR Integration Guide 29
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Compliance Information
(According to ISO/IEC Guide 17050-1, 17050-2 and EN 45014)
Manufacturer’s Name & Address:
Lantronix 15353 Barranca Parkway, Irvine, CA 92618 USA
Product Name Model: MatchPort AR Embedded Device Server
Conforms to the following standards or other normative documents:
Radiated and conducted emissions
CFR Title 47 FCC Part 15, Subpart B and C
Industry Canada ICES-003 Issue 4 2004
VCCI V-3/2007.04
AS/NZS CISPR 22: 2006
EN55022: 1998 + A1: 2000 + A2: 2003
EN61000-3-2: 2000 + A2: 2005
EN61000-3-3: 1995 + A1: 2001 + A2: 2005
Immunity
EN55024: 1998 + A1: 2001 + A2: 2003
Direct & Indirect ESD
EN61000-4-2: 1995
RF Electromagnetic Field Immunity
EN61000-4-3: 2002
Electrical Fast Transient/Burst Immunity
EN61000-4-4: 2004
Surge Immunity
EN61000-4-5: 2006
RF Common Mode Conducted Susceptibility
EN61000-4-6: 1996
Power Frequency Magnetic Field Immunity
EN61000-4-8: 1994
Voltage Dips and Interrupts
EN61000-4-11: 2004
Safety
UL 60950-1
CAN/CSA-C22.2 No. 60950-1-03
EN 60950-1:2001, Low Voltage Directive (73/23/EEC)
wwwlantronl om/sugpon/warranty
A:Compliance and Warranty Information
MatchPort AR™ Integration Guide 30
Manufacturer’s Contact:
Director of Quality Assurance, Lantronix
15353 Barranca Parkway, Irvine, CA 92618 USA
Tel: 949-453-3990
Fax: 949-453-3995
Warranty
Lantronix warrants each Lantronix product to be free from defects in material and
workmanship for a period of TWO YEARS. During this period, if a customer is unable
to resolve a product problem with Lantronix Technical Support, a Return Material
Authorization (RMA) will be issued. Following receipt of a RMA number, the customer
shall return the product to Lantronix, freight prepaid. Upon verification of warranty,
Lantronix will -- at its option -- repair or replace the product and return it to the
customer freight prepaid. If the product is not under warranty, the customer may have
Lantronix repair the unit on a fee basis or return it. No services are handled at the
customer's site under this warranty. This warranty is voided if the customer uses the
product in an unauthorized or improper way, or in an environment for which it was not
designed.
Lantronix warrants the media containing its software product to be free from defects
and warrants that the software will operate substantially according to Lantronix
specifications for a period of 60 DAYS after the date of shipment. The customer will
ship defective media to Lantronix. Lantronix will ship the replacement media to the
customer.
In no event will Lantronix be responsible to the user in contract, in tort (including
negligence), strict liability or otherwise for any special, indirect, incidental or
consequential damage or loss of equipment, plant or power system, cost of capital,
loss of profits or revenues, cost of replacement power, additional expenses in the use
of existing software, hardware, equipment or facilities, or claims against the user by
its employees or customers resulting from the use of the information,
recommendations, descriptions and safety notations supplied by Lantronix. Lantronix
liability is limited (at its election) to:
Refund of buyer's purchase price for such affected products (without
interest).
Repair or replacement of such products, provided that the buyer follows the
above procedures.
There are no understandings, agreements, representations or warranties, expressed
or implied, including warranties of merchantability or fitness for a particular purpose,
other than those specifically set out above or by any existing contract between the
parties. Any such contract states the entire obligation of Lantronix. The contents of
this document shall not become part of or modify any prior or existing agreement,
commitment or relationship.
For details on the Lantronix warranty replacement policy, go to our web site at
www.lantronix.com/support/warranty