KYLAND Technology SICOM3016BA-4GX-12S/M, SICOM3016BA-4GX-6S/M-6T, SICOM3016BA-4GX-8S/M-4T, SICOM3016BA-4GX-6S/M Hardware Installation Manual

SICOM3016BA Industrial Ethernet Switch

Hardware Installation Manual

Kyland Technology Co., Ltd.

Publication Date: Apr. 2013
Version: V1.1
FAX: +86-10-88796678
Website: http://www.kyland.com
E-mail: support@kyland.com

SICOM3016BA Industrial Ethernet Switch
Hardware Installation Manual

Disclaimer: Kyland Technology Co., Ltd. tries to keep the content of this

manual as accurate and as updated as possible. This document is not
guaranteed to be error-free, and we reserve the right to amend it without notice
to users.

All rights reserved.

No part of this documentation may be excerpted, reproduced, translated,
annotated or duplicated, in any form or by any means without the prior written
permission of KYLAND Corporation.

Copyright © 2013 Kyland Technology Co., Ltd.

1

Notice for Safety Operation

This product performs reliably as long as it is used according to the
guidance. Artificial damage or destruction of the equipment should be
avoided.

 Read this manual carefully and keep it for future reference;
 Do not place the equipment near water sources or damp areas;
 Do not place anything on power cable or put the cable in unreachable

places;

 Do not tie or wrap the cable, which may cause a fire risk;
 Power connectors and other equipment connectors should be firmly

interconnected and checked frequently;

 Do not repair the equipment by yourself, unless it is clearly specified in

the manual;

 Please keep the equipment clean; if necessary, wipe the equipment

with soft cotton cloth.

In the following cases, please immediately shut down your power supply

and contact your Kyland representative:

 Water gets into the equipment;
 Equipment damage or shell damage;
 Equipment operation or performance has abnormally changed;
 The equipment emits odor, smoke or abnormal noise.

2

Contents

1 Product Overview ........................................................................................ 1

2 Structure and Interface ................................................................................ 1

2.1 Front Panel .............................................................................................. 1

2.2 Top Panel ................................................................................................ 2

3 Mounting ...................................................................................................... 3

3.1 Dimension Drawing ................................................................................. 3

3.2 Mounting Modes and Steps ..................................................................... 4

4 Cable Connection ........................................................................................ 6

4.1 10/100Base-T(X) Port .............................................................................. 6

4.2 100Base-FX Port ..................................................................................... 8

4.3 1000Base-X SFP Port ............................................................................. 8

4.4 Console Port .......................................................................................... 10

4.5 Debug Port ............................................................................................ 11

4.6 Power Terminal Block ............................................................................ 13

4.7 Grounding .............................................................................................. 15

5 LEDs .......................................................................................................... 15

6 Switch Access ........................................................................................... 16

6.1 Access through Console Port ................................................................ 16

6.2 Access through Telnet ........................................................................... 18

6.3 Access through Web ............................................................................. 19

7 Product Configuration Information ............................................................. 19

8 Basic Features and Specifications ............................................................. 21

3

1 2

3

4

5 6

8 9 10

11 12

2

1

5

6

7

3 4

1 Product Overview

SICOM3016BA is an intrinsically safe gigabit industrial Ethernet switch
developed by Kyland. The switch is equipped with high-performance
switching engine, overcurrent-, overvoltage-, and EMC-protection power
supply, outstanding EMC protection on RJ45 ports, and redundant power
input. All these features guarantee the reliably operation of the system.
SICOM3016BA provides powerful network management functions. The
device can be managed through CLI, Telnet, Web, and SNMP-based
network management software.
SICOM3016BA has two forms: integrated device and bare board. An
integrated device supports panel mounting, while a bare board can be
installed in another device. SICOM3016BA provides diversified ports,
including 1000Base-X SFP, 100Base-FX, and 10/100Base-T(X) ports.

2 Structure and Interface

2.1 Front Panel

Table 9 and Table 10 list the products models of SICOM3016BA. This
section uses SICOM3016BA-4GX-6S/M-6T as an example to describe the
structure and ports of the front panel. The structure and ports of all the
other models are similar to those of SICOM3016BA-4GX-6S/M-6T.

Figure 1 Front Panel

1

Table 1 Front Panel of SICOM3016BA-4GX-6S/M-6T

No.

Identifier

Description

1

1-6

100Base-FX port

2

7-12

10/100Base-T(X) port

3

--

10/100Base-T(X) RJ45 port speed LED

4

--

10/100Base-T(X) RJ45 port Link/ACT LED

5

GX1-GX4

1000Base-X SFP port

6 Grounding screw

7

--

Mounting ear

No.

Identifier

Description

1

PWR

Power LED

2

Alarm

Alarm LED

3

Run

Running LED

1

2 3 4

5

6

7
8

9

2.2 Top Panel

Figure 2 Top Panel

Table 2 Top Panel of SICOM3016BA

2

4

1-12

Fast Ethernet port LED

5

G1-G4

1000Base-X SFP port LED

6

+ - + - ACAlarm -

Power terminal block

7

Console

Console port

8

Debug

Debug port

9

--

Mounting ear

3 Mounting

1 2

3

4

5 6

8 9 10 11 12

284

19

44

5.5

12.5

88

64

265

140

244

3.1 Dimension Drawing

 SICOM3016BA Integrated Device (unit: mm)

Figure 3 SICOM3016BA (Integrated Device)

3

 SICOM3016BA Bare Board (unit: mm)

120

105

80

5

45

80

40

75

161

64

235

130

Figure 4 SICOM3016BA (Bare Board)

3.2 Mounting Modes and Steps

As mentioned in the first chapter, SICOM3016BA has two forms, that is,
integrated device and bare board. A bare board can be directly installed in
the target device, while the integrated device supports panel mounting.
Detailed steps are as follows:
 Panel Mounting (Integrated Device)

Step 1: Select the mounting position on a wall or an inner wall of a

cabinet for SICOM3016BA and guarantee adequate space for
it.

Step 2: Punch four holes in the selected position according to the

dimensions of SICOM3016BA. Insert four screws into the four
holes respectively, and turn the screws with a screwdriver until
about a 5mm distance is left between each screw head and
the wall.

Step 3: Make the four screws pass through the middle (the part with

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the largest radius) of the four holes on the mounting ears of
SICOM3016BA. Move SICOM3016BA to the right (or left) until
the screws are located at the left (or right) ends (the part with
the smallest radius) of the mounting holes. Tighten the screws.
In this way, you can secure the device to the wall or inner wall
of a cabinet, as shown in Figure 5.

Figure 5 Panel Mounting

 Panel Dismounting (Integrated Device)

Step 1: Loosen the four screws with a screwdriver. Move the device to

the left (or right) until the screws are located in the middle of
the four mounting holes on the mounting ears. Then make the
screws pass through the mounting holes. In this way, you can
remove the device from the wall or inner wall of the cabinet.

Step 2: Loosen the screws completely with a screwdriver. Remove

them from the wall or inner wall of the cabinet. In so doing, you
have completed dismounting the device.

5

Figure 6 Panel Dismounting

8 7 6 5 4 3 2 1

4 Cable Connection

4.1 10/100Base-T(X) Port

10/100Base-T(X) port is equipped with RJ45 connector. The port is
self-adaptive. It can automatically configure itself to work in 10M or 100M
state, full or half duplex mode. The port can also adapt to MDI or MDI-X
connection automatically. You can connect the port to a terminal or
network device with a straight-through or cross-over cable.
Figure 7 shows the pin numbers of the 10/100Base-T(X) RJ45 port.

Figure 7 RJ45 Port

Table 3 lists the pin definitions of the 10/100Base-T(X) RJ45 port.

6

Table 3 Pin Definition of 10/100Base-T(X) RJ45 Port

Pin

MDI-X Signal

MDI Signal

1

Receive Data+ (RD+)

Transmit Data+ (TD+)

2

Receive Data- (RD-)

Transmit Data- (TD-)

3

Transmit Data+ (TD+)

Receive Data+ (RD+)

6

Transmit Data- (TD-)

Receive Data- (RD-)

4, 5, 7, 8

Unused

Unused

Note: "+" and "-" indicate level polarities.

Note: The color of the cable for RJ45 connector meets the 568B standard: 1-orange and

white, 2-orange, 3-green and white, 4-blue, 5-blue and white, 6-green, 7-brown and white,
and 8-brown.

 Wiring Sequence

Figure 8 Connection Using Straight-through Cable

Figure 9 Connection Using Cross-over Cable

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Caution: The device uses laser to transmit signals in fibers. The laser meets the
requirements of level 1 laser products. Routine operation is not harmful to your eyes, but
do not look directly at the fiber port when the device is powered on.

4.2 100Base-FX Port

100Base-FX port is equipped with FC/ST/SC connector, and each port
consists of TX (transmit) port and RX (receive) port, as shown in Figure 10.
Figure 10 shows 100Base-FX port wiring. (The following uses the SC port
as example; ST/FC wiring method is the same with SC.) To enable data
transmission between Switch A and Switch B, connect the TX (transmit)
port of Switch A to the RX (receive) port of Switch B, and the RX (receive)
port of Switch A to the TX (transmit) port of Switch B.

Figure 10 100Base-FX Cable Connection

4.3 1000Base-X SFP Port

To use 1000Base-X SFP port, you need to purchase a gigabit SFP module
(For details, see Table 11). After the SFP module is inserted into the
1000Base-X SFP port, you can connect the device to other devices with
optical fibers for communication.

Figure 11 SFP Module

8

Gigabit SFP module is equipped with LC connector, and each port consists
of a TX (transmit) port and an RX (receive) port, as shown in Figure 12.
To enable data transmission between Switch A and Switch B, connect the
TX (transmit) port of Switch A to the RX (receive) port of Switch B, and the
RX (receive) port of Switch A to the TX (transmit) port of Switch B, as
shown in Figure 12.

Figure 12 Cable Connection of Gigabit SFP Module

 How to Determine the RX Port and TX Port of Gigabit SFP Module

1. Insert the two connectors in one end of optical fiber into gigabit SFP
module, and those in the other end of the optical fiber into the SFP
module of another switch.

2. Check the corresponding port Link/ACT indicator in the front panel:
If the indicator blinks, the link is connected.
If the indicator is off, the link is not connected. This may be caused
by incorrect connection of the TX and RX ports. In this case, swop
the two connectors in the one end of the optical fiber.

 How to Connect the Gigabit SFP Optical Module

Insert the gigabit SFP module into the 1000Base-X SFP slot in the
switch, and then plug the optical fiber into the TX port and RX port of
the SFP module, as shown in Figure 13.

9

Caution:

 The device uses laser to transmit signals in fibers. The laser meets the requirements

of level 1 laser products. Routine operation is not harmful to your eyes, but do not
look directly at the fiber port when the device is powered on.

 If the defined transmission distance of an SFP module is longer than 60km, do not

use a short fiber (<20km) for connection. If such a short fiber is used, the module will
be burned.

Figure 13 Connecting the Gigabit SFP Optical Module

4.4 Console Port

There is a console port on the top panel of the switch, as shown in Figure

14. Connect the 9-pin serial port of a PC to the console port of the switch
with an RJ45-DB9 console cable. You can configure, maintain, and
manage the switch by running the Hyper Terminal in the Windows OS of
the computer.

Figure 14 Console Port

 RJ45-DB9 Console Cable

Figure 16 shows the RJ45-DB9 console cable. One end of the cable is
crimped RJ45 connector to be inserted into the console port of the
switch, and the other end is the DB9 connector to be inserted into the

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9-pin serial port of a PC.

Pin

Definition

2

Receive Data (RXD)

3

Transmit Data (TXD)

5

GND

1, 4, 6, 7, 8, 9

Unused

Figure 15 shows the pin numbers of the DB9 connector.

Figure 15 DB9 Connector

Table 4 lists the pin definitions of the DB9 connector.

Table 4 Pin Definition of DB9 Connector

Figure 16 shows the wiring sequence of the RJ45-DB9 console cable.

Figure 16 Wiring Sequence of Console Cable

4.5 Debug Port

The debug port (as shown in Figure 17) is on the top panel. The port is
equipped with RJ45 connector. You can connect the port to the network
port of a PC with an RJ45-RJ45 twisted pair, as shown in Figure 18. Then
you can manage and configure the switch through Web or Telnet. For

11

details, see sections 6.2 and 6.3.

Pin

MDI-X Signal

MDI Signal

1

Receive Data+ (RD+)

Transmit Data+ (TD+)

2

Receive Data- (RD-)

Transmit Data- (TD-)

3

Transmit Data+ (TD+)

Receive Data+ (RD+)

Figure 17 Debug Port

Figure 18 Cable Connection of Debug Port

The debug port is self-adaptive. It can automatically configure itself to work
in 10M or 100M state, full or half duplex mode. The port can also adapt to
MDI or MDI-X connection automatically. You can connect the port to a
terminal or network device with a straight-through or cross-over cable.
Figure 19 shows the pin numbers of the debug port.

Figure 19 Pin Numbers

Table 5 lists the pin definitions of the debug port.

Table 5 Pin Definitions of Debug Port

12

6

Transmit Data- (TD-)

Receive Data- (RD-)

4, 5, 7, 8

Unused

Unused

Note: "+" and "-" indicate level polarities.

 Wiring Sequence

Note: The color of the cable for RJ45 connector meets the 568B standard: 1-orange and
white, 2-orange, 3-green and white, 4-blue, 5-blue and white, 6-green, 7-brown and white,
and 8-brown.

Note: 0.75mm2<Cross-sectional area of the power cable<2.5mm2;

Grounding resistance: <5.

Figure 20 Connection Using Straight-through Cable

Figure 21 Connection Using Cross-over Cable

4.6 Power Terminal Block

SICOM3016BA adopts 6-pin 5.08mm-spacing plug-in terminal block. You
need to connect the power cable to the terminal block to provide power
and AC power alarm signals for the device.

13

No.

Identifier

Definition

1/3 + Positive power input

2/4/6

-

GND

5

AC Alarm

AC power alarm input: TTL level input. High level input
indicates AC power supply, while low level input indicates
alarm battery power supply. The AC/DC power supply
status is displayed on the Web network management
interface.

Caution: The device supports 5DC and 12DC power input. Before connecting the device
to power supply, make sure that the power input meets the power requirement. If
connected to an incorrect power input, the device may be damaged.

1 2 3 4 5 6

 6-Pin 5.08mm-Spacing Plug-in Terminal Block

Figure 22 shows the pin numbers of the 6-pin 5.08mm-spacing plug-in
terminal block.

Figure 22 6-Pin 5.08mm-Spacing Plug-in Terminal Block (socket)

Table 6 lists the pin definitions of the 6-pin 5.08mm-spacing plug-in
terminal block.

Table 6 Pin Definition of 6-Pin 5.08mm-Spacing Plug-in Terminal Block

 Wiring and Mounting

Step 1: Remove the power terminal block from the switch.
Step 2: Insert the power cable into the power terminal block according
to Table 6 to fix the power cable.
Step 3: Insert the terminal with the connected cable into the terminal
block on the switch.

14

LED

State

Description

Running LED

Run

On

The CPU operates abnormally or the device is starting
up.

Blinking
(1Hz)

The CPU operates properly.
Off

The CPU does not start up.

Alarm LED

Alarm
On

An alarm occurs.

Off

No alarm occurs.

Power LED

PWR
On

The power is connected and operates properly.

Off

The power is not connected or operates abnormally.

Fast Ethernet Port LED

Link/ACT
On

Effective port connection

Blinking

Ongoing network activities

4.7 Grounding

Figure 23 GND

There is a grounding screw on the front panel of SICOM3016BA. The
screw is for chassis grounding. Connect one end of the grounding cable to
the grounding screw and the other end to the earth firmly (cross-sectional
area of the chassis grounding cable>2.5mm2; grounding resistance<5).

5 LEDs

Table 7 lists the descriptions of SICOM3016BA LEDs.

Table 7 LEDs

15

Off

No effective port connection

10/100Base-T(X) RJ45 Port LED

Each RJ45 port has two LEDs. The yellow one indicates port rate while the green one
indicates port connection state.

Speed (yellow)
On

100M working state

Off

10M working state or no connection

Link/ACT (green)
On

Effective port connection

Blinking

Ongoing network activities

Off

No effective port connection

1000Base-X SFP Port LED

Link/ACT
On

Effective port connection

Blinking

Ongoing network activities

Off

No effective port connection

6 Switch Access

You can access the switch in any of the following ways:

6.1 Access through Console Port

Step 1: Connect the 9-pin serial port of a PC to the console port of the

switch with an RJ45-DB9 console cable.

Step 2: Open the Hyper Terminal in the Windows OS. On the desktop, click

Start → All Programs → Accessories → Communications → Hyper
Terminal.

Step 3: Create a new connection "aa", as shown in Figure 24.

16

Figure 24 Creating a Connection

Step 4: Select the COM port in use (You can view the port in use in Device

Manager), as shown in Figure 25.

Figure 25 Selecting a Serial Port

Step 5: Set port parameters (Bits per second: 9600, Data bits: 8, Parity:

None, Stop bits: 1, and Flow control: None), as shown in Figure

26.

17

View

Command

Description

User view

SWITCH>enable

Enter the management view.

Management view

SWITCH#show interface

Query the IP address of the switch.

Management view

SWITCH#show version

Query the version of the switch.

Management view

SWITCH#reboot

Restart the switch.

Management view

SWITCH#load default

Restore the factory default settings
(excluding the IP address).

Management view

SWITCH#config terminal

Enter the configuration view.

Figure 26 Setting Port Parameters

Step 6: Click OK to enter the switch CLI. Then you can run the following

commands to perform operations.

Table 8 CLI Commands

6.2 Access through Telnet

Step 1: Connect the network port of a PC to the 10/100Base-T(X) port or

debug port of the switch with an RJ45-RJ45 network cable.

Step 2: Enter "telnet IP-address" in the Run dialog box, as shown in Figure

27. The default IP address of a Kyland switch is 192.168.0.2.

18

Note: IE8.0 or a later version is recommended.

Model

Interface

Power

SICOM3016BA-4GX-12S/M

Four 1000Base-X SFP ports, twelve
100Base-FX ports, SM (MM), FC/ST/SC
connector

5DC, 12DC
(redundant)
SICOM3016BA-4GX-8S/M-4T

Four 1000Base-X SFP ports, eight
100Base-FX ports, SM (MM), FC/ST/SC
connector, four 10/100Base-T(X) adaptive
RJ45 ports

Figure 27 Access Through Telnet

Step 3: Click OK to enter the Telnet CLI. Run the commands in Table 8 for

further operations.

6.3 Access through Web

Step 1: Connect the network port of a PC to the 10/100Base-T(X) port or

debug port of the switch with an RJ45-RJ45 network cable.

Step 2: Enter the IP address of the switch in the address box of the

browser. The user login interface is displayed. You can log in to the
Web UI by using default user name "admin" and password "123".

7 Product Configuration Information

Table 9 and Table 10 list the models supported by SICOM3016BA.

Table 9 SICOM3016BA Configuration (Integrated Device)

19

SICOM3016BA-4GX-6S/M-6T

Four 1000Base-X SFP ports, six
100Base-FX ports, SM (MM), FC/ST/SC
connector, six 10/100Base-T(X) adaptive
RJ45 ports

SICOM3016BA-4GX-6S/M

Four 1000Base-X SFP ports, six
100Base-FX ports, SM (MM), FC/ST/SC
connector

Note: SICOM3016BA (integrated device) also provides 3GX and 2GX models as well as
models without gigabit ports. The identifiers (for example, 6S/M) for 100M ports in the
names of the other models are identical with those of models listed in Table 9. For models
with conformal coating on the PCB, "-C" is added to the names before the identifiers for
ports.

Model

Interface

Power

SICOM3016BA-EM-C-4GX

-12S/M

Bare board with conformal coating, four
1000Base-X SFP ports, twelve 100Base-FX
ports, SM (MM), FC/ST/SC connector

5DC, 12DC
(redundant)

SICOM3016BA-EM-C-4GX

-8S/M-4T

Bare board with conformal coating, four
1000Base-X SFP ports, eight 100Base-FX
ports, SM (MM), FC/ST/SC connector, four
10/100Base-T(X) adaptive RJ45 ports

SICOM3016BA-EM-C-4GX

-6S/M-6T

Bare board with conformal coating, four
1000Base-X SFP ports, six 100Base-FX
ports, SM (MM), FC/ST/SC connector, six
10/100Base-T(X) adaptive RJ45 ports

SICOM3016BA-EM-C-4GX

Bare board with conformal coating, four

Table 10 SICOM3016BA Configuration (Bare Board)

20

-6S/M

1000Base-X SFP ports, six 100Base-FX
ports, SM (MM), FC/ST/SC connector

Note: SICOM3016BA (bare board) also provides 3GX and 2GX models as well as models
without gigabit ports. The identifiers (for example, 6S/M) for 100M ports in the names of
the other models are identical with those of models listed in Table 10.

Model

Description

DT-FCZ-RJ45-01

RJ45 dustproof shield

Industrial Gigabit SFP Module

IGSFP-M-SX-LC-850-0.55

1000Base-X port; multi mode, LC connector; 850nm
center wavelength (CWL), 550m transmission distance

IGSFP-S-LX-LC-1310-10

1000Base-X port; single mode, LC connector; 1310nm
center wavelength (CWL), 10km transmission distance

IGSFP-S-LH-LC-1310-40

1000Base-X port; single mode, LC connector; 1310nm
center wavelength (CWL), 40km transmission distance

IGSFP-S-ZX-LC-1550-80

1000Base-X port; single mode, LC connector; 1550nm
center wavelength (CWL), 80km transmission distance

Table 11 SICOM3016BA Optional Accessories

8 Basic Features and Specifications

 Power Requirements

Rated Voltage Range : 5DC: 5VDC

12DC: 12VDC

Maximum Voltage Range : 5DC: 4.5-5.5VDC

12DC: 9-18VDC

Power terminal: 6-pin 5.08mm-spacing plug-in terminal block

21

 Power consumption

<10.6W

 Physical Characteristics

Housing: Metal, fanless

Installation: Panel (integrated device) or plug-in (bare board) mounting
Dimensions (W×H×D): 284mm×44mm×140mm (integrated device)
235mm×130mm (bare board, W×D)

Weight: 1.5kg

 Environmental Limits

Operating temperature: -40℃ to +85℃
Storage temperature: -40℃ to +85℃

Ambient relative humidity: 5% to 95% (non-condensing)

 MTBF

329,032 hours

 Warranty

5 years

For more information about KYLAND products, please visit our website:
http://www.kyland.com

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