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Instant Internet Evaluation Board II-EVB-365SMT User Manual Version 1.10 Copyright © 2012 Connect One Ltd. International: Connect One Ltd. 20 Atir Yeda Street Kfar Saba 44643, Israel Phone: +972-9-766-0456 Fax: +972-9-766-0461 Email: [email protected] http://www.connectone.com Pub. No. 23-3830-01

II-EVB-361MW User Manual - Spezial · in both PSK and Enterprise modes. The module also supports the SSL3/TLS1 security protocols. When used as a router, the Nano WiReach SMT provides

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Page 1: II-EVB-361MW User Manual - Spezial · in both PSK and Enterprise modes. The module also supports the SSL3/TLS1 security protocols. When used as a router, the Nano WiReach SMT provides

Instant Internet Evaluation Board

II-EVB-365SMT

User Manual Version 1.10

Copyright © 2012 Connect One Ltd.

International: Connect One Ltd. 20 Atir Yeda Street Kfar Saba 44643, Israel Phone: +972-9-766-0456 Fax: +972-9-766-0461 Email: [email protected] http://www.connectone.com

Pub. No. 23-3830-01

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International: Connect One Ltd. 20 Atir Yeda Street Kfar Saba 44643, Israel Phone: +972-9-766-0456 Fax: +972-9-766-0461 Email: [email protected] http://www.connectone.com

Pub. No. 23-3830-01

Information provided by Connect One Ltd. is believed to be accurate and reliable. However, Connect One assumes no responsibility for its use, nor any infringement of patents or other rights of third parties, which may result from its use. No license is granted by implication or otherwise under any patent rights of Connect One other than for circuitry embodied in Connect One’s products. Connect One reserves the right to change circuitry at any time without notice. This document is subject to change without notice. The software described in this document is furnished under a license agreement and may be used or copied only in accordance with the terms of such a license agreement. It is forbidden by law to copy the software on any medium except as specifically allowed in the license agreement. No part of this document may be reproduced or transmitted in any form or by any means, electronic or mechanical, including but not limited to photocopying, recording, transmitting via fax and/or modem devices, scanning, and/or information storage and retrieval systems for any purpose without the express written consent of Connect One. iChip, Nano WiReach, Nano WiReach SMT, Nano LANReach, Nano Socket iWiFi, Nano Socket LAN, IP Communication Controller, SerialNET, AT+i, and Connect One are trademarks of Connect One Ltd. Copyright © 2012 Connect One Ltd. All rights reserved.

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Revision History 23-3830-01 Version Date Description 1.00 April 2011 Initial Release. 1.10 March 2012 Added EVB Schematics

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TABLE OF CONTENTS

1. Introduction............................................................................................................5 2. Unpacking ..............................................................................................................5 3. Connections............................................................................................................5 4. Installing the iChipConfig Utility & Evaluation Software ....................................6 5. Testing the WiFi module Wireless Connection .....................................................6 6. Testing the Nano WiReach SMT Ethernet Connection.........................................7 7. Additional Connections .........................................................................................8

SPI Slave....................................................................................................................8 8. II-EVB-365 SMT Bill of Materials......................................................................10 Appendix 1: Nano WiReach SMT Mechanical Views ................................................11 Appendix 2: II EVB 365SMT Schematics...................................................................12 Appendix 3: Installing USB Drivers on a PC ..............................................................13

Installing the USB driver: ........................................................................................13 Viewing the properties of the new driver: ...............................................................16 FAQs ........................................................................................................................18

Appendix 4: WiFi Configuration Notes.......................................................................19 Introduction..............................................................................................................19 iChip Wireless LAN Environment Configuration Parameters ................................20 Wireless LAN Configuration Web Site Page ..........................................................21 Wireless LAN Status Report....................................................................................21 iChip Wireless LAN Test Mode ..............................................................................22 Placement and Range Guidelines.............................................................................23 Wireless LAN Data Privacy/Security Considerations .............................................23

Appendix 5: SPI Host Interface ...................................................................................24 Introduction..............................................................................................................24 SPI Protocol .............................................................................................................24 Data from module to Host (Slave to Master)...........................................................24 Flow Control - Data from Host to iChip Flow Control ...........................................25 iSPIP — SPI GPIO Pin ............................................................................................25 iHIF — Host Interface .............................................................................................25

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1. Introduction

This manual is intended to familiarize customers with Connect One’s Instant Internet Evaluation Board II-EVB-365SMT. The II-EVB-365SMT is an evaluation platform for the Nano WiReach™ SMT Module, which is a secure serial-to-WiFi / serial-to-LAN module that provides a wide range of commands to initiate Internet connectivity and can also act as a bridge to connect serial devices to wired Ethernet or 802.11b/g wireless LANs. Furthermore, the module can also be configured as a full-blown router between LAN and WiFi subnets. With an external USB modem communications and routing are extended to the cellular network, providing for a unique mobile router capability. The module has an economic SMT form factor and is based on Connect One’s iChip CO2144 IP Communication Controller™ and the AT+i™ command set, a powerful set of Internet protocol commands developed by Connect One to manage Internet connectivity through an Ethernet, Wireless LAN or cellular connection. The module enables sending and receiving textual and binary data, MIME-encoded email messages; downloading HTML pages or files from a Web server, or items from within a page; Web serving, as well as managing TCP or UDP socket communications (with or without SSL3) over the Internet. It also include an FTP client and a TELNET client. Nano WiReach SMT can easily connect existing LAN based solutions to a WiFi network when used in bridging mode. Nano WiReach SMT supports numerous WiFi security protocols such as 64/128-bit WEP encryption, AES-CCM and TKIP encryption, WPA (including AES) and WPA2 in both PSK and Enterprise modes. The module also supports the SSL3/TLS1 security protocols. When used as a router, the Nano WiReach SMT provides IP allocation via a DHCP server and NAT translation when routing packets between a local subnet and a WAN. Three-way routing between wired-LAN, WiFi and a cellular network is fully supported. In routing mode, port-forward rules may be configured between the WAN connection and any specific local subnet node. 2. Unpacking

Take the II-EVB-365 SMT out of its box. Included in the box are: • The II-EVB-365 SMT motherboard incorporating the iW- SM2144SMT-OB

(Nano WiReach SMT module with On-board antenna). • A serial cable with two DB-9 connectors • A USB cable • +9VDC Power supply adaptor (110/220 VAC)

3. Connections

1. Communications Cable: • Serial RS232: Connect one end of the RS232 cable to the D-shell, 9-

pin female, Host RS232 port on the II-EVB-365 SMT (J5) and connect

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the other DB-9 connector to the COM1 or COM2 serial port on your PC, or to the serial port of your embedded device.

• USB: Connect one the device end of the USB cable to the EVB-365 SMT USB connector (J10) and connect the other end to a Host USB port on your PC or embedded device.

2. Connect the II-EVB-365 SMT to the power supply.

4. Installing the iChipConfig Utility & Evaluation Software II-EVB-365 SMT enables you to evaluate the Nano WiReach SMT module without changing anything in your current development environment. Using a simple terminal program on a PC, you can issue AT+i commands to the module and get responses. AT+i commands are used to configure parameter values into iChip’s flash memory and activate Internet tasks such as Email send/receive, socket manipulation, FTP sessions, Web, and more. A full description of the AT+i protocol can be found in the AT+i Programmer’s Manual on the Connect One website at: http://www.connectone.com/support.asp?did=42 To assist in configuring and evaluating the iChip, Connect One supplies the iChipConfig Utility. This is a Windows-based GUI program that contains intuitive dialog boxes to fully configure iChip. It doesn’t require any knowledge of AT+i commands. In addition, it contains a local firmware upgrade function. The iChipConfig Utility also allows you to perform specific Internet communication tasks such as sending and receiving Emails, activating iChip’s websites, entering SerialNET mode, and more. For more information on the iChipConfig Utility and its usage, see the iChip Config Utility User’s Manual. . The latest iChipConfig Utility version and user manual can be found on the Connect One website in the Support section at: http://www.connectone.com/support.asp?did=30 Most frequently iChipConfig connects to the II-EVB-365 SMT though the PC’s standard RS232 Serial port. A USB Device port is also available, which allows using a USB connection as an alternative. To enable use of the PC USB port, a virtual COM USB driver needs to be loaded on the PC. The iChipConfig can then be configured to use the virtual port. Instructions for configuring the USB drivers on the PC are given below in Appendix 2. 5. Testing the WiFi module Wireless Connection

To test the wireless LAN connection, you need to configure the Nano WiReach SMT to connect to an Access Point:

1. Make sure an Access Point is connected and configured properly. 2. Start the iChipConfig Utility on your PC.

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3. In the main window of the utility, click the Dumb Terminal icon. 4. In the Dumb Terminal window, enter the AT+i command to verify that the

iChip is communicating with your PC. You should receive an I/OK in response. If this has failed, click the “Setup Port” button and select the correct COM port. When using a USB connection, select the USB virtual COM being used.

5. Enter the AT+iRP11 command to obtain a report of all the Access Points available in your area.

6. Enter AT+iWLSI=<ssid>. ssid is the ID of the Access Point you connect to. Note that ssid is a case-sensitive string.

7. If you want to enable WEP encryption, configure the following parameters: • AT+iWLWM=<n> where n=0 means no security, n=1 means 64-bit

key, and n=2 means 128-bit key • AT+iWLKI=<n> where n is the WEP key index (n=1..4) • AT+iWLK<n>=<keyString> where n is an index between 1 and 4, and

keyString is the WEP key string in the nth position. 8. If you want to enable WPA encryption, configure the following parameter:

AT+iWLPP=<passphrase> where passphrase is the pass-phrase to be used in generating the WPA1-PSK encryption key. It is normal for the iChip to take a few moments before returning I/OK in this case.

9. Enter AT+iDOWN in order to reset the module and connect to the WiFi network.

At this stage a connection to the Access Point should be established. Verify that the module has received an IP address from the DHCP server by issuing the AT+iIPA? command. The module should reply with I/<IP address>. To test the connection, use the iChipConfig utility to perform any activity that requires network connection such as retrieving a web page, sending an email, or opening a socket. You may also try to PING the iChip from another station on the network.

6. Testing the Nano WiReach SMT Ethernet Connection

The II-EVB-365 SMT contains a standard 10/100BaseT RJ45 connector that allows a direct connection to a wired LAN. To test the Ethernet LAN connection, you need to configure the Nano WiReach SMT for your LAN:

1. Connect the module to the LAN network. 2. Start the iChipConfig Utility on your PC. 3. In the main window of the utility, click the Dumb Terminal icon. 4. In the Dumb Terminal window, enter the AT+i command to verify that the

iChip is communicating with your PC. You should receive an I/OK in response. If this has failed, click the “Setup Port” button and select the correct COM port. When using a USB connection, select the USB virtual COM being used.

5. Configure the module IP address in the +iDIP parameter. Set AT+iDIP=0.0.0.0 if you want the module to receive IP settings for the network’s DHCP server.

6. Set +iDIP to an IP address to skip the DHCP process and use a fixed IP. In this case you should also define the +iSNET (subnet) parameter. For example, AT+iSNET=255.255.255.0

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II-EVB-365 SMT User’s Manual

7. Change the LAN type parameter to 2 (LAN) using the following command: AT+iLTYP=2

8. Enter AT+iDOWN in order to reset the module and connect to the LAN network.

To test the connection, use the iChipConfig utility to perform any activity that requires network connection such as retrieving a web page, sending an email, or opening a socket. You may also try to PING the iChip from another station on the network.

9. Restore the LTYP parameter to zero to return to the default Wireless-LAN operation.

7. Additional Connections

The modules support two additional connections: SPI Slave The modules support an alternative Host interface to the RS232 Serial port and the USB connection. A host equipped with an SPI Master connection may connect to the module’s SPI Slave port and interact with the module with AT+i commands. An SPI cable (not supplied) connects to the II-EVB-365 SMT J2 SIP connector: nSPI_INT

nSPI MISOnSPI MOSI

nSPI_CLKnSPI_CS

GND

J2

1

A full description of interfacing the modules with SPI is included below in Appendix 4.

8

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II-EVB-365 SMT User’s Manual

Connectors and Switch Positions

RS232 Serial Connection

+9VDC USB Power Jack

Power Switch

Module Reset

Mode Select

USB Connection

RJ45 LAN

Nano WiReach SMTModule

POT for A/D Input

SPI Connection

Cellular Modem

GPIO Switches

9

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8. II-EVB-365 SMT Bill of Materials

Item Quant. Reference Part Manufacturer1 3 C1,C39,C40 47PF Any 2 9 C2,C4,C5,C6,C8,C10,C13,C16,C36 470NF Any

3 5 C3,C9,C30,C31,C38 10UF/6.3V Any

4 18 C7,C11,C12,C14,C15,C17,C18,C19,C20,C23, C24,C25,C26,C27,C28,C29,C35,C37 100NF Any

5 2 C21,C22 100UF/6.3V Any 6 1 C34 220UF/10V Any 7 2 C41,C42 15PF Any 8 10 D1,D3,D4,D5,D6,D7,D8,D9,D10,D14 GREEN LED Any 9 1 D2 LLN4148 Any

10 1 D13 RED LED Any 11 1 JP3 JUMPER Any 12 1 J2 CON6 Any 13 1 J5 DB9 FEM Any 14 1 J7 203199 ERNI 15 1 J8 USB MINI B Any 16 1 J9 USB-A Any 17 1 J10 USB-B Any 18 1 L1 BK2125HM601 Taiyo Yuden 19 1 P1 POT 10K Any

20 13 R1,R2,R4,R5,R6,R7,R13,R14,R19,R20,R23, R25,R44 100k Any

21 15 R8,R9,R11,R12,R15,R16,R17,R18,R21,R22, R24,R39,R40,R42,R46 470 Any

22 4 R10,R29,R30,R31 10K Any 23 6 R26,R27,R33,R34,R35,R36 49.9 1% Any 24 2 R28,R32 3K Any 25 1 R37 0 Any 26 1 R38 6.8K1% Any 27 1 R43 100k Any 28 1 R45 1K Any 29 4 R47,R49,R51,R52 27 Any 30 2 R48,R50 15K Any 31 2 R53,R54 75K Any 32 2 R55,R56 49.9K Any 33 5 SW1,SW2,SW3,SW4,SW5 TACK_SW Any 34 1 SW6 SWITCH Any 35 1 U1 SP3243ECA Sipex 36 1 U2 iW-SM2144SMT Connectone 37 2 U3,U6 74VHC123AMTCX Fairchild 38 3 U4,U5,U7 NC7WZ04P6X Fairchild 39 1 U8 F4100-50MHZ Fox Online 40 1 U9 DM9161A davicom

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Appendix 1: Nano WiReach SMT Mechanical Views

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Appendix 2: II EVB 365SMT Schematics

Page 13: II-EVB-361MW User Manual - Spezial · in both PSK and Enterprise modes. The module also supports the SSL3/TLS1 security protocols. When used as a router, the Nano WiReach SMT provides

5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

RTS232

TXD232

CTS232

RXD232

TXD232

RTS232

CTS232RXD232

RXD0

CTS0

RTS0RDINES232

RDINES232

SPI1_MOSISPI1_CLK

SPI1_MISO

SPI1_CS

SPI1_INT

TXD0

MSELDATA_RDY

NRST

EREFCKETXEN

PIOC4

HDMHDP

DDPDDMRTS0CTS0

SPI1_INTSPI1_MOSISPI1_MISO

SPI1_CLKACH

RF_LED

CRSDV

VBUS

EMDIOEMDCERXERERX1ERX0

ETX1ETX0

PIOC5

READINESSPIOC3

SPI1_CS

TXD0RXD0

DATA_RDY

READINESS

VDD

GND

GND

GND

VDD

GND

GND

GND

GND

GND

VDD

VDD

VDD1

VDD

GND

GND

GND

GND

VDD1

GND

GND

NRST

ETX0ETX1

EMDC

CRSDV

ERX1ERX0

ERXER

EMDIO

VBUS

HDM

EREFCK

HDP

ETXEN

DDP

DDM

PIOC4

DATA_RDY

PIOC5READINESS

PIOC3

SPI1_CS

RXD0TXD0

Title

Size Document Number Rev

Date: Sheet of

2011-2001 1.0

CONNECTORS+RS232

Connect-ONE Ltd.

B

1 4Tuesday, January 18, 2011

II-EVB-365SMTTitle

Size Document Number Rev

Date: Sheet of

2011-2001 1.0

CONNECTORS+RS232

Connect-ONE Ltd.

B

1 4Tuesday, January 18, 2011

II-EVB-365SMTTitle

Size Document Number Rev

Date: Sheet of

2011-2001 1.0

CONNECTORS+RS232

Connect-ONE Ltd.

B

1 4Tuesday, January 18, 2011

II-EVB-365SMT

RS232 TO HOST

FOR ANTENNA HOLDING

SPI TO HOST

C5470NF

C5470NF

FI3

FIDUCIAL

FI3

FIDUCIAL1

1

D1GREEN LED D1GREEN LED

21

C4

470NF

C4

470NF

J3

CON15

J3

CON15

123456789

10111213

2

TP

2

TP

1

SW1

TA

CK

_S

W

SW1

TA

CK

_S

W

R4100KR4100K

C6

470NF

C6

470NF

+ C9

10UF/6.3V

+ C9

10UF/6.3V

P1

POT

P1

POT1

3

2

J6

CON9

J6

CON9

1234567

98

HOLEHOLE

1

U1

SP3243ECA

U1

SP3243ECA

RIN14

RIN25

RIN36

TOUT19

TOUT210

TOUT311

ROUT119

ROUT218

ROUT317

TIN114

TIN213

TIN312

INVALID21

FORCEOFF22

VC

C26

GN

D25

C1+28

C1-24

C2+1

C2-2

V+27

V-3

FORCEON23

ROUT2B20

RIN47

RIN58

ROUT416

ROUT515

R5

100K

R5

100K

C147PFC147PF

J2

CON6

J2

CON6

123456

SW2

TACK_SW

SW2

TACK_SW

R2

100K

R2

100K

1

TP

1

TP

1

J5

DB

9 F

EM

J5

DB

9 F

EM

594837261

10

11

C8470NF

C8470NF

R1

100K

R1

100K

HOLEHOLE

1

+ C3

10UF/6.3V

+ C3

10UF/6.3V

FI1

FIDUCIAL

FI1

FIDUCIAL

11

HOLEHOLE

1

C7100NFC7100NF

LLN4148

D2

LLN4148

D2

HOLEHOLE

1

J4

CON15

J4

CON15

12345678910111213

FI2

FIDUCIAL

FI2

FIDUCIAL

11

JP1

JMP3

JP1

JMP3

1

2

3

U2

iW-SM2144SMT

U2

iW-SM2144SMT

GN

D1

HD

M2

HD

P3

RE

SE

T4

PIO

C4

5

MS

EL

6

DA

TA

RD

Y/P

IOC

25

7

ET

XE

N8

RE

FC

LK

9

ETX010

ETX111

CRSDV12

ERX013

ERX114

ERXER15

EMDC16

EMDIO17

PIOC518

VBUS19

READINESS/PIOC220

PIOC321

VDD22

GN

D23

GN

D24

GN

D25

GN

D26

GN

D27

GN

D28

GN

D29

GN

D30

GN

D31

RF_LED32

ACH33

SPI1_CLK34

SPI1_CS35

SPI1_MISO36

SPI1_MOSI37

SPI1_INT/PIOC038

TXD039

RXD040

CTS041

RTS042

DDM43

DDP44

C2

470NF

C2

470NF

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5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

TXD0

RXD0

DATA_RDY

VDD

GND

VDD

GND

VDD

VDD

GND

VDD

GND

VDD

VDD

GND

VDD

GND

VDD

GND

GND

VDD

VDD

VDD

VDD

VDDGND

GND

VDD

VDD

GND

GNDVDD

VDD

GND

VDD

GND

GND

VDD

GND

VDD

VDD

GND

VDD

GNDGND

GND

PIOC4

PIOC5

PIOC3

RXD0

TXD0

SPI1_CS

READINESS

DATA_RDY

Title

Size Document Number Rev

Date: Sheet of

2011-2001 1.0

I/O

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2 4Sunday, January 16, 2011

II-EVB-365SMTTitle

Size Document Number Rev

Date: Sheet of

2011-2001 1.0

I/O

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II-EVB-365SMTTitle

Size Document Number Rev

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I/O

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II-EVB-365SMT

C15

100NF

C15

100NF

D3

GREEN LED

D3

GREEN LED

21

U7B

NC7WZ04P6X

U7B

NC7WZ04P6X

3 4

52

U5B

NC7WZ04P6X

U5B

NC7WZ04P6X

3 4

52

C13

470NF

C13

470NF

C14

100NF

C14

100NF

SW5

TA

CK

_S

W

SW5

TA

CK

_S

W

SW3

TA

CK

_S

W

SW3

TA

CK

_S

WR13

100K

R13

100KU5A

NC7WZ04P6X

U5A

NC7WZ04P6X

1 6

52

C12

100NF

C12

100NF

R24

470

R24

470

R9

470

R9

470

C11

100NF

C11

100NF

R15

470

R15

470

R11

470

R11

470

R22

470

R22

470

R10

10K

R10

10K

R14

100K

R14

100K

R19100K

R19100K

D7

GREEN LED

D7

GREEN LED

2 1

U3B

74VHC123AMTCX

U3B

74VHC123AMTCX

CEXT6

REXT/CEXT7

A9

B10

CLR11

Q5

Q12

D6

GREEN LED

D6

GREEN LED

21

R18

470

R18

470

C16

470NF

C16

470NF

R16

470

R16

470

D8

GREEN LED

D8

GREEN LED

21

R23

100K

R23

100K

R25

100K

R25

100K

U3A

74VHC123AMTCX

U3A

74VHC123AMTCX

CEXT14

REXT/CEXT15

A1

B2

CLR3

Q13

Q4

U7A

NC7WZ04P6X

U7A

NC7WZ04P6X

1 6

52

U4A

NC7WZ04P6X

U4A

NC7WZ04P6X

1 6

52

U4B

NC7WZ04P6X

U4B

NC7WZ04P6X

3 4

52

R21

470

R21

470

C10

470NF

C10

470NF

SW4

TA

CK

_S

W

SW4

TA

CK

_S

W

R8

470

R8

470

R12

470

R12

470

D4

GREEN LED

D4

GREEN LED

2 1

R20

100K

R20

100K

C17

100NF

C17

100NF

R7

100K

R7

100K

U6B

74VHC123AMTCX

U6B

74VHC123AMTCX

CEXT6

REXT/CEXT7

A9

B10

CLR11

Q5

Q12

R6

100K

R6

100K

D5

GREEN LED

D5

GREEN LED

2 1

D9

GREEN LED

D9

GREEN LED

21

U6A

74VHC123AMTCX

U6A

74VHC123AMTCX

CEXT14

REXT/CEXT15

A1

B2

CLR3

Q13

Q4

R17

470

R17

470

D10

GREEN LED

D10

GREEN LED

2 1

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5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

GND

GND

VDD

AVDD1

AVDD1

VDD

AGND1

VDD

VDD

GND

AVDD1

AGND1

VDD

AGND1

GND

VDD

GND

AGND1 AGND1GND

AGND1

VDD

VDD

NRST

ERX0ERX1

EREFCK

EMDIO

ETX1

EMDC

ETX0ETXEN

CRSDV

ERXER

Title

Size Document Number Rev

Date: Sheet of

2011-2001 1.0

RMII

Connect-ONE Ltd.

B

3 4Thursday, January 13, 2011

II-EVB-365SMTTitle

Size Document Number Rev

Date: Sheet of

2011-2001 1.0

RMII

Connect-ONE Ltd.

B

3 4Thursday, January 13, 2011

II-EVB-365SMTTitle

Size Document Number Rev

Date: Sheet of

2011-2001 1.0

RMII

Connect-ONE Ltd.

B

3 4Thursday, January 13, 2011

II-EVB-365SMT

R39470 R39470

C28100NF C28100NF

C26

100NF

C26

100NFR370 R370

L1

BK2125HM601

L1

BK2125HM601

R26

49.9 1%

R26

49.9 1%

R28 3KR28 3K

C20100NF C20100NF

C18

100NF

C18

100NF

R30

10K

R30

10K

R40470 R40470

R29

10K

R29

10K

R27

49.9 1%

R27

49.9 1%

R3649.9 1%R3649.9 1%

C25

100NF

C25

100NF

C19

100NF

C19

100NF

C23

100NF

C23

100NFR3549.9 1%R3549.9 1%

R3449.9 1%R3449.9 1%

R38

6.8K1%

R38

6.8K1%

C27100NF C27100NF

+

C22100UF/6.3V

+

C22100UF/6.3V

U8

F4100-50MHZ

U8

F4100-50MHZ

VD

D4

GN

D2

OUT3

E/D1

C24100NF C24100NF

R3349.9 1%R3349.9 1%

U9

DM9161A

U9

DM9161A

XT143

REF_CLK/XT242

TX317

TX218

TX119

TX020

TX_EN21

TX_CLK/ISOLATE22

RXD0/PHYAD029

RXD1/PHYAD128

RXD2/PHYAD227

RXD3/PHYAD326

RX_CLK/10BTSER34

RX_DV/TESTMODE37

TX_ER/TXD416

RX_ER/RXD4/RPTR38

COL/RMII36

CRS/PHYAD435

MDC24

MDIO25

MDINTR32

DISMDIX39

VDD41

VDD30

VDD23

GND15

GND33

GND44

PWRDWN10

RESET40

TX+7

TX-8

RX+3

RX-4

AVDDR1

AVDDR2

AVDDT9

AGND5

AGND6

AGND46

BGRESG47

BGRES48

LEDMODE31

LED0/OP011

LED1/OP112

LED2/OP213

CABLESTS/LINKSTS14

NC45

J7

ERNI

J7

ERNI

RDP3

RDN6

RCT5

TCT4

TDP1

TDN2

NC7

GND8

SHILD9

SHILD10

D111

D212

D313

D414

+

C21100UF/6.3V

+

C21100UF/6.3V

R31

10K

R31

10KR32 3KR32 3K

C29100NF C29100NF

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5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

DDP

DDM

HDM

HDP

GND

5V

VDD1

GND

VDD

GND GND

GND

GNDGND

GND

GND

GND

GND

GND

GND

GND

5V

VDD

GND

GND

GND

DDM

DDP

HDP

HDM

VBUS

Title

Size Document Number Rev

Date: Sheet of

2011-2001 1.0

POWER+USB

Connect-ONE Ltd.

B

4 4Monday, April 11, 2011

II-EVB-365SMTTitle

Size Document Number Rev

Date: Sheet of

2011-2001 1.0

POWER+USB

Connect-ONE Ltd.

B

4 4Monday, April 11, 2011

II-EVB-365SMTTitle

Size Document Number Rev

Date: Sheet of

2011-2001 1.0

POWER+USB

Connect-ONE Ltd.

B

4 4Monday, April 11, 2011

II-EVB-365SMT

FOR USB MODEM

DDP

+5V

GND

DDM

NC

POWER

VBUS1

TP

VBUS1

TP

1

R44100k R44100k

+C38

10UF/6.3V

+C38

10UF/6.3V

+ C30

10UF/6.3V

+ C30

10UF/6.3V

C4047PFC4047PF

VDDTPVDDTP

1SW6

SWITCH

SW6

SWITCH

1 2

+ C31

10UF/6.3V

+ C31

10UF/6.3V

R51 27R51 27

C3947PFC3947PF

R43

100k

R43

100k

D14

GREEN LED

D14

GREEN LED

21

R52

27

R52

27C4215PFC4215PF

R46470R46470

C41

15PF

C41

15PF

R451K

R451K

J9

USB-A

J9

USB-A

1234

+

C34

220UF/10V

+

C34

220UF/10V

C35100NF

C35100NF

C36470NF C36470NF

R48

15K

R48

15K

U11

MCP1825S-33

U11

MCP1825S-33

VIN1

GN

D4

VOUT3

GN

D2

R49

27

R49

27R50

15K

R50

15K

D13

RED LED

D13

RED LED

21R55

49.9KR5549.9K

R5649.9K

R5649.9K

J8

USB MINI B

J8

USB MINI B

12345

R5475KR5475K

JP3

JUMPER

JP3

JUMPER

1 2

U12

FDC6329L

U12

FDC6329L

Vin,R14

Vout,C13

Vout,C12

ON/OFF5

R21

R1,C16

R47

27

R47

27

R5375KR5375K

R42470R42470

C37100NFC37100NF

J10

USB-B

J10

USB-B

1234

GNDTPGNDTP

1

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II-EVB-365 SMT User’s Manual

Appendix 3: Installing USB Drivers on a PC

Installing the USB driver: The USB driver is supplied in three separate files: sabalo.inf, iChip.inf and usbser.sys. These files may be obtained on the Connect One Web site under: Support >> Drivers & Utilities at: http://www.connectone.com/support.asp?did=30. 1. Copy “sabalo.inf” and “iChip.inf” to the directory C:\WINDOWS\inf. To view the \inf directory, you must allow viewing of hidden folders in Folder Options. 2. Copy usbser4.sys to C:\WINDOWS\system32\drivers. 3. Connect one end of a USB cable to your PC. Connect the other end to the USB “device” connector of the II-EVB-365 SMT board on which the module is mounted. 4. Turn on the power to the EVB board. 5. The “Found New Hardware Wizard” of Windows XP pops up and prompts you to install a new device driver. When prompted with the message “Can Windows connect to Windows Update to search for software?” Select No, not this time. See Figure 1.

Figure 1

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6. When prompted with the message “What do you want the wizard to do?” Select Install the software automatically (Recommended). See Figure 2.

Figure 2

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II-EVB-365 SMT User’s Manual

7. Windows will install the driver. See Figure 3.

Figure 3

Figure 4

8. When a pop-up window reports that the software for the new hardware — Connect One Sabalo USB Device — has not passed Windows Logo testing, select Continue Anyway. See Figure 4.

15

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16

iewing the properties of the new driver:

. From the Windows task, click Start > Settings > Control Panel.

. Double-click the System icon.

. In the dialog box displayed, select the Hardware tab.

. Click the Device Manager button.

. If the Flash memory is empty: Open the Modems list to find the Connect One

. If the Flash memory is already programmed: Open the Ports list to find the

9. The USB driver is now installed and ready for use. See Figure 5.

Figure 5

V 1 2 3 4 5Sabalo USB Device. The virtual COM port number will be written in the propertiesinformation of this device. 6Connect One iChip Sabalo port number. See Figure 6.

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Figure 6

17

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18

FAQs Q: What should I do if Windows does not automatically locate the driver for the new hardware? A: Please use the “Back” button to browse to the previous step and manually browse to the directory of the iChip Configuration Utility, usually located in “C:\Program Files\iChipConfig”. Q: What should I do if Windows identifies new hardware but the wizard does not pop up automatically? A: You can invoke the wizard manually from the Control Panel. Q: What should I do if Windows notifies me that “USB Device Not Recognized”? A: Please make sure that the cable is connected properly to the board side. Then disconnect the USB cable from the computer side and try to connect it to another USB port. Prefer a port which is located on the computer rather than use a USB hub. Q: Should I repeat this installation procedure every time I connect the board over USB connection to the same computer? A: No. The installation is required only on the first time the board is connected to each computer. Afterwards the board will be automatically recognized and ready to communicate over USB.

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19

Appendix 4: WiFi Configuration Notes

Introduction The AT+I programmer’s manual includes full details for WiFi configuration. Please visit the support section on Connect One’s website to obtain the last version. The following is a partial overview of WiFi related commands. Wireless LAN stations operate in one of two modes: Infrastructure or Ad-Hoc. In Infrastructure mode, wireless LAN stations connect to a wireless LAN Access Point (AP), which acts as a hub. Wireless LAN stations may connect to each other through the AP. If the AP is connected to LAN, it allows wireless LAN stations to connect to other stations on the LAN. When a gateway is in place, it enables wireless LAN stations to connect to systems across the gateway, as well. In Ad-Hoc mode, two or more wireless LAN stations communicate directly with each other. The Nano WiReach/Socket iWiFi supports the 802.11b/g wireless LAN communication platform. It uses the iChip™ CO2144 communication controller chip and Marvell 88W8686 WiFi chipset. It incorporates several dedicated AT+i configuration parameters to support the wireless LAN environment. See the table below for a detailed list of WiFi configuration parameters.

AT+i Parameter Name Description WLCH Wireless LAN Communication Channel WLSI Wireless LAN System-Set ID WLWM Wireless LAN WEP Mode WLKI Wireless LAN Transmission WEP Key Index WLKn Wireless LAN WEP Key Array WLPS Wireless LAN Power Save WLPP Personal Shared Key Pass Phrase WLRS Wireless LAN Rescan Interval

Table 1: AT+i Wireless LAN Configuration Parameters

The Nano WiReach/Socket iWiFi may also be configured to exploit WEP security. iChip supports configuration of both 64-bit or 128-bit WEP keys. In Infrastructure mode, Power Save mode is supported. When activated, Power Save shuts down the station for a limited period of time, during which the Access Point buffers incoming packets destined for the deactivated WiFi station. The station periodically wakes up to retrieve all the buffered packets stored in the Access Point. In this mode, total power consumption is lowered at the expense of higher response latency. The Nano WiReach/Socket iWiFi may be configured to put the WiFi chipset in Power Save mode in conjunction with iChip’s inherent Power Save mode.

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iChip Wireless LAN Environment Configuration Parameters WLCH (Factory Default: 0) In Infrastructure mode, the WLCH parameter must be set to 0. Other available values (1..13) designate the preferred communication channel while in Ad-Hoc mode. WLSI (Factory Default: Empty) This parameter must be assigned with the System-Set-ID string (SSID), which is identical to that configured in the Access Point(s) through which the WiFi station needs to connect. An exception to this is the “Any SSID” configuration, which is configured by simply leaving this parameter empty (or setting to NULL string with AT+iWLSI=””). In the “Any SSID” configuration, the WiFi station will connect to any available Access Point. If more than one Access Point is active, it will choose the one with the stronger radio signal. WLWM (Factory Default: 0) Configure this parameter to designate WEP security usage mode. If WEP is disabled, the WLKI and WLKn parameter settings are irrelevant. Note that WEP settings (with the exception of WLKI) must be identical to those configured in the Access Point device. Possible settings are:

WLWM Setting WEP Security 0 Disabled 1 Enabled, using 64 bit keys 2 Enabled, using 128 bit keys

Table 2: WEP Security Mode Settings

WLKI (Factory Default: 1) If WEP is enabled, this parameter defines the key index of the WEP key to be used when encoding outgoing WiFi packets. Since WEP includes configuration for an array of four possible keys, WLKI can receive a value in the range [1..4]. The value of this parameter need not be the same as that configured in the Access Point. WLKn (Factory Default: All Empty) These are four consecutive parameters (with n ranging from 1 to 4). The parameters define an array of 4 WEP security keys, which are used to encode outgoing WiFi packets (using the key defined by WLKI) and decode incoming packets according to the key issued by the Access Point device. Key size is 64- or 128-bits, according to the WLWM setting. The parameter values are used only if WEP security is enabled (WLWM > 0). The key values must be identical to those configured in the Access Point device. WLPS (Factory Default: 0) This parameter defines the chipset Power Save mode. When configured for Power Save mode, iChip links its own internal Power-Save mode with that of the Marvell chipset. When iChip’s Power Save mode is activated (AT+iPSE=1), and when WLPS is greater than 0, iChip will force the chipset into Power Save mode. The value stored in WLPS defines the maximum length of time (in milliseconds) during which the Marvell chipset will snooze, before waking up to download any available packets that may have been buffered for it in the Access Point. WLPS may be set in the range:

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II-EVB-365 SMT User’s Manual

[0..3600]. When WLPS is set to 0, the Marvell chipset Power Save is disabled, even if iChip enters Power Save mode. WLPP (Factory Default: Empty) This parameter sets the wireless LAN WPA1-PSK pass-phrase to be used in generating the WPA1-PSK encryption key. When empty, WPA security is disabled. If WLSI (SSID) is not empty, WPA1-PSK security is enabled for WiFi connections and WLPP is used in generating the WPA1-PSK encryption key. The allowed value for WLPP is an ASCII string containing 8-63 characters. WLRS (Factory Default: 0) This parameter sets the interval between consecutive scans that iChip performs in search for nearby ad-hoc networks. Scan duration is two beacon periods (200 ms). WLRS may be set in the range: 0-65535 milliseconds. Wireless LAN Configuration Web Site Page iChip’s configuration website includes two views that support configuration and status retrieval of related Wireless LAN parameters. The configuration view displays the configurable Wireless LAN AT+i parameters (WLCH, WLSI, WLWM, and WLKI). New values may be defined and submitted to iChip from the browser.

Figure 7: Wireless LAN Web Configuration

Wireless LAN Status Report The Wireless LAN AT+i Report (AT+iRP10) returns pertinent status information regarding the active 802.11b/g Wireless LAN link. In response to issuing the report command, iChip will reply with the following syntax:

I/(<port stat>, <xfer rate>, <sig level>, <lnk qual>)

Where, port stat -- Port Status:

0: Wireless LAN adapter not present 1: Wireless LAN adapter Disabled 2: Searching for initial connection 4: Connected 5: Out of range

xfer rate -- Transfer Rate, in the range 1..4 (1 =>1 Mbps; 2 =>2 Mbps; 3 =>5.5 Mbps; 4 =>11 Mbps)

21

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II-EVB-365 SMT User’s Manual

sig lvl -- Signal Level [%], in the range 0..100 lnk qual -- Link Quality [%], in the range 0..100

The Configuration website contains a live status page with this and some additional status information:

Figure 8: Wireless LAN Web Status Display

iChip Wireless LAN Test Mode WLTR This command limits the wireless LAN transmission rate according to the specified command parameter. The table below details the possible parameter values:

Maximum Transmission Rate

Detail

0 Maximum possible transmission rate for the current chipset. 1 1 Mbps 2 2 Mbps 3 5.5 Mbps 4 11 Mbps 5 Reserved 6 6 Mbps 7 9 Mbps 8 12 Mbps 9 18 Mbps 10 24 Mbps 11 36 Mbps 12 48 Mbps 13 54 Mbps

Table 3: Maximum Transmission Rate Command Parameter

22

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23

When AT+i WLTR is issued, transmission rate is limited for the duration of the session until another AT+iWLTR command is issued, or iChip is power-cycled. Placement and Range Guidelines 802.11b/g wireless LAN devices connect to wireless LAN Access Points over a maximum range of 300 feet. Actual transmission rate and service quality may vary significantly as a result of environmental obstacles and physical placement of the Access Point and station devices. For best results, refer to the following guidelines:

1. Locate the wireless LAN equipment away from sources of interference, such as PCs, large metal surfaces, microwaves, and cordless phones.

2. Position the wireless LAN access point at an elevated position and as close as possible to the center of the area in which the wireless LAN devices will operate.

Wireless LAN Data Privacy/Security Considerations The fact that wireless LAN devices transmit data over a radio link makes them vulnerable to electronic eavesdropping, tampering, and information theft. There are several means by which you may strengthen your wireless LAN access security:

• Change the factory default SSID setting of the wireless LAN Access Point and station devices. Enable WEP or WPA encryption of the wireless LAN data communications. If you use WEP, it is recommended that you use 128-bit WEP keys.

• Restrict 802.11b/g wireless LAN access based on MAC address. This is configurable in most Access Point devices.

• Place the 802.11b/g Wireless Access Point in a location where it cannot be physically tampered with.

• Store printed SSID and WEP or WPA key settings in a safe place.

For a complete Wireless LAN Configuration Guide for iChip products download the “WiFi Configuration Guide” form the Connect One Web site at: http://www.connectone.com/support.asp?did=42.

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Appendix 5: SPI Host Interface

Introduction The Nano WiReach/Socket iWiFi contains an SPI slave port, which allows a Host processor to interface the iChip using an SPI Master port. The SPI data transfer shall be based on the 'Command-Response' principle. (Half Duplex). Meaning, until the HOST gets an answer to a command, it won't send a new one. Several assumptions have been made:

• Number of bits per transfer is: 8.

• No echo from the module to HOST (i.e. when module’s host interface is set to SPI, the command AT+iEn is meaningless.

• When module’s host interface is set to SPI, the module won't support SerialNet mode since it is not Half Duplex compatible.

• When module’s host interface is set to SPI, the module won't support the “+++” Escape sequence.

The SPI interface will have the following behavior:

• Fixed peripheral select

• The CS is directly connected to the SPI Master device

• Mode fault detection is enabled

• The inactive state value of the serial clock is logic level zero

• Data is changed on the leading edge of the serial clock and captured on the following edge of the serial clock

• The peripheral chip select line rises as soon as the last transfer is achieved SPI Protocol A module GPIO Output signal is dedicated as the SPI Control signal (nSPI_INT). After receiving a command from the Host, the module will assert this signal for the duration of its response. The Host should not attempt to send the next command until this signal is de-asserted. The SPI control signal pin is defined with the new +iSPIP parameter described below. The SPI control signal is also utilized as a flow-control signal when the Host transmits data to the module. Data from module to Host (Slave to Master) When the module replies to the Host commands it sends data packets preceded by a 2-byte header using the following structure:

1 0 0 0 4bits MSB 8bits LSB

Bit 15 is the Data-Ready bit 12bits Data Length

24

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The module’s SPI driver asserts the SPI Control GPIO to indicate to the host to start reading the entire packet, starting with the header word and followed by the packet payload, whose length matches the 12 LSBits of the Header word. All the received bytes from the host are ignored. Flow Control - Data from Host to iChip Flow Control Flow control from the module to the host is managed using the SPI control signal. The module will assert the SPI Control signal to signal flow stop. As soon as the host identifies that the SPI control signal was asserted it should stop transmitting. When the module can resume reception, it will de-assert the SPI Control signal. iSPIP — SPI GPIO Pin

Syntax: AT+iSPIP=<n> Define a GPIO as the SPI Control signal

Parameters: n=0 SPI Control Signal is disabled

n=1..6 Use PIOC [<n>-1] as the SPI Control signal Default: 0 – SPI Control signal disabled

Result code: I/OK If n is a legal value.

I/ERROR Otherwise AT+iSPIP? Returns the current SPIP value followed by I/OK.

AT+iSPIP=? Returns the message “0-6” followed by I/OK. Note: The setting will take effect only after SW or HW reset.

iHIF — Host Interface The +iHIF (Host Interface) parameter is used to define if the SPI Host interface is to be used. A new value of 6 defines usage of SPI. For example, AT+iHIF=6 -- Selects SPI as the Host module interface.