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| Product Type | Industrial Fast Ethernet Switch |
| Model | ISW-511TS15 |
| Copper Ports | 4 x 10/100BASE-TX (auto-negotiation, auto-MDI/MDI-X) |
| Fiber Port | 1 x 100BASE-FX (single-mode, 15km) |
| Fiber Cable | 9/125µm single-mode fiber |
| Dimensions (W x D x H) | 135 x 97 x 32 mm |
| Weight | 436 g |
| Power Input | 12~48V DC redundant with polarity reverse protection |
| Power Consumption | 13.7 watts / 46 BTU |
| Switching Fabric | 1 Gbps |
| Throughput | 0.74 Mpps (64-byte packets) |
| MAC Address Table | 2K entries |
| Packet Buffer | 1 Mbit |
| Flow Control | Back pressure (half-duplex), IEEE 802.3x pause frame (full-duplex) |
| Standards Compliance | IEEE 802.3, 802.3u, 802.3x |
| Operating Temperature | -40 to 75°C |
| Storage Temperature | -40 to 85°C |
| Humidity | 5% to 90% (non-condensing) |
| Enclosure | IP30 metal case |
| Mounting | DIN rail and wall mount (kits included) |
| Stability Testing | IEC60068-2-32 (free fall), IEC60068-2-27 (shock), IEC60068-2-6 (vibration) |
| Regulatory Compliance | FCC Part 15 Class A, CE |
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USER MANUAL ISW-511TS15 Planet
4-Port 10/100Mbps +1/2 100FX Fiber Port Industrial Fast Ethernet Switch
ISW-511 / ISW-621 Series
ISW-511T / ISW-621T Series
User's Manual
Trademarks
Copyright © PLANET Technology Corp. 2015
Contents are subject to revision without prior notice
PLANET is a registered trademark of PLANET Technology Corp. All other trademarks belong to their respective owners.
Disclaimer
PLANET Technology does not warrant that the hardware will work properly in all environments and applications, and makes no warranty and representation, either implied or expressed, with respect to the quality, performance, merchantability, or fitness for a particular purpose.
PLANET has made every effort to ensure that this User's Manual is accurate; PLANET disclaims liability for any inaccuracies or omissions that may have occurred.
Information in this User's Manual is subject to change without notice and does not represent a commitment on the part of PLANET. PLANET assumes no responsibility for any inaccuracies that may be contained in this User's Manual. PLANET makes no commitment to update or keep current the information in this User's Manual, and reserves the right to make improvements to this User's Manual and/or to the products described in this User's Manual, at any time without notice.
If you find information in this manual that is incorrect, misleading, or incomplete, we would appreciate your comments and suggestions.
FCC Warning
This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the Instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense.
CE Mark Warning
This is a Class A product. In a domestic environment, this product may cause radio interference, in which case the user may be required to take adequate measures.
WEEE Warning

To avoid the potential effects on the environment and human health as a result of the presence of hazardous substances in electrical and electronic equipment, end users of electrical and electronic equipment should understand the meaning of the crossed-out wheeled bin symbol. Do not dispose of WEEE as unsorted municipal waste and have to collect such WEEE separately.
Revision
PLANET 4-Port 10/100Mbps +1/2 100FX Industrial Fast Ethernet Switch User's Manual
For Models: ISW-511 / ISW-621 / ISW-511T / ISW-621T Series
Revision: 1.4 (April, 2015)
Part No: EM-ISW-511_621_v1.4 (2350-AH0150-003)
Table of Contents
1. Introduction......6
1.1 Package Contents....6
1.2 How to Use This Manual....6
1.3 Product Features .... 7
1.4 Product Specifications 8
2. Installation ....14
2.1 Product Description....14
2.1.1 Switch Front Panel 15
2.1.2 LED Indicators 17
2.1.3 Switch Upper Panel 17
2.1.4 Wiring the Power Inputs....18
2.1.5 Wiring the Fault Alarm Contact....19
2.2 Mounting Installation 20
2.2.1 Install DIN-Rail Mounting 20
2.2.2 Wall Mount Plate Mounting....22
3. Applications ......23
4. Switch Operation....27
4.1 Address Table....27
4.2 Learning ......27
4.3 Forwarding & Filtering....27
4.4 Store-and-Forward....28
4.5 Auto-negotiation....28
5. Troubleshooting....29
APPENDIX A: Networking Connection....30
A.1 Switch's RJ45 Pin Assignments ....30
A.2 RJ45 cable Pin Assignments 31
1. Introduction
1.1 Package Contents
Check the contents of your package for the following parts:
- User's Manual x 1
- DIN Rail Kit x 1
- Wall Mount Kit x 1
- Industrial Fast Ethernet Switch x 1
If any of these are missing or damaged, please contact your dealer immediately. If possible, retain the carton including the original packing material, and use them again to repack the product in case there is a need to return it to us for repair
1.2 How to Use This Manual
This Industrial Fast Ethernet Switch User Manual is structured as follows:
Chapter 2 Installation
The chapter explains the feature, functionality and the physical installation of the Industrial Fast Ethernet Switch.
Chapter 3 Application
The chapter explains the Industrial Fast Ethernet Switch application.
Chapter 4 Switch operation
The chapter explains the Industrial Fast Ethernet Switch transmit operation.
Chapter 5 Troubleshooting
The chapter explains the troubleshooting of the Industrial Fast Ethernet Switch.
Appendix A
This chapter contains cable information of the Industrial Fast Ethernet Switch.
1.3 Product Features
Physical Port
| Model Name | Ports Fiber Optical Interface | |||
| Copper Optical Mode Distance | ||||
| ISW-511 | 4 x 10/100BASE-TX | 1 x 100BASE-FX | Multi-mode | 2km |
| ISW-511T | ||||
| ISW-511S15 | Single-mode | 15km | ||
| ISW-511TS15 | ||||
| ISW-621 | 2 x 100BASE-FX | Multi-mode | 2km | |
| ISW-621T | ||||
| ISW-621S15 | Single-mode | 15km | ||
| ISW-621TS15 | ||||
| ISW-621TF | Multi / Single Mode | depending on SFP Module | ||
Layer 2 Features
☐ Complies with IEEE 802.3, IEEE 802.3u 10/100BASE-TX, 100BASE-FX
□ Supports auto-negotiation and 10/100Mbps half / full duplex mode for each copper port
☐ High performance store and forward architecture, broadcast storm control, runt/CRC filtering eliminates erroneous packets to optimize the network bandwidth
☐ Prevents packet loss with back pressure (half-duplex) and IEEE 802.3x pause frame flow control (full-duplex)
□ Backplane (switching fabric):
ISW-511 / ISW-511T Series: 1Gbps
ISW-621 / ISW-621T Series: 1.2Gbps
☐ Integrated address look-up engine, supporting 2K absolute MAC addresses
☐ 1Mbit on-chip frame buffer on ISW-511 / ISW-621 Series and ISW-511T / ISW621T Series
□ Automatic address learning and address aging
□ CSMA/CD Protocol
Industrial Case / Installation
□ IP30 metal case
☐ DIN rail and wall mount design
☐ 12 to 48V DC, redundant power with polarity reverse protect function and connective removable terminal block for master and slave power
☐ -10 to 60 degrees C operating temperature on ISW-511 / ISW-511S15 / ISW-621 / ISW-621S15
☐ -40 to 75 degrees C operating temperature on ISW-511T / ISW-511TS15 / ISW-621T / ISW-621TS15 / ISW-621TF
1.4 Product Specifications
| Model ISW-51 | 1 ISW-511S15 | ||
| Hardware Specifications | |||
| Copper | Ports | 4 x 10/100BASE-TX, auto-negotiation, auto-MDI/MDI-X | |
| Cable | 10BASE-T: 2-pair UTP Cat. 3, 4, 5 cable (100 meters, max.)100BASE-TX: 2-pair UTP Cat. 5, 5e, 6 cable (100 meters, max.) | ||
| Fiber Optical | Port 1 x 100BASE-FX | ||
| Cable | 50/125μm fiber62.5/125μm fiber | 9/125μm fiber | |
| Mode multi-mode single-mode | |||
| Distance 2km 15km | |||
| Dimensions (W x D x H) 13 | 5 x 97 x 32mm | ||
| Weight 436g | |||
| Power Requirements | 12~48V DC, Redundant power with polarity reverse protection function | ||
| Power Consumption / Dissipation | 9.1 watts / 31BTU | ||
| Installation DIN rail kit and | wall mount ear | ||
| Switch Specifications | |
| Switch Processing Scheme | Store-and-Forward |
| Address Table 2K entries | |
| Buffer 1Mbit | |
| Flow Control | Back pressure for half duplex, IEEE 802.3x pause frame for full duplex |
| Switch Fabric 1Gbps | |
| Throughput (Packet Per Second) | 0.74Mpps @ 64Bytes |
| Standards Conformance | |
| Standards Compliance | IEEE 802.3 Ethernet, 10BASE-T IEEE 802.3u Fast Ethernet, 100BASE-TX, 100BASE-FX IEEE 802.3x full-duplex flow control |
| Stability testing | IEC60068-2-32 (free fall) IEC60068-2-27 (shock) IEC60068-2-6 (vibration) |
| Temperature | Operating: -10~60 degrees C Storage: -40~85 degrees C |
| Humidity Operating | Operating: 5% to 90%, Storage: 5% to 90% (non-condensing) |
| Regulation Compliance FCC | Part 15 Class A, CE |
| Model ISW-511T ISW-511TS15 | |||
| Hardware Specifications | |||
| Copper | Ports | 4 x 10/100BASE-TX, auto-negotiation, auto-MDI/MDI-X | |
| Cable | 10BASE-T : 2-pair UTP Cat. 3, 4, 5 cable (100 meters, max.)100BASE-TX : 2-pair UTP Cat. 5, 5e, 6 cable (100 meters, max.) | ||
| Fiber Optical | Port 1 x 100 | BASE-FX | |
| Cable | 50/125μm fiber62.5/125μm fiber | 9/125μm fiber | |
| Mode multi- | mode single-mode | ||
| Distance 2km | 15km | ||
| Dimensions (W x D x H) 13 | 5 x 97 x 32mm | ||
| Weight 436g | |||
| Power Requirements | 12~48V DC, Redundant power with polarity reverse protection function | ||
| Power Consumption / Dissipation | 13.7 watts / 46BTU | ||
| Installation DIN rail kit and | wall mount ear | ||
| Switch Specifications | |||
| Switch Processing Scheme | Store-and-Forward | ||
| Address Table 2K entries | |||
| Buffer 1Mbit | |||
| Flow Control | Back pressure for half duplex,IEEE 802.3x pause frame for full duplex | ||
| Switch Fabric 1Gbps | |||
| Throughput(Packet Per Second) | 0.74Mpps @ 64Bytes | ||
| Standards Conformance | |||
| Standards Compliance | IEEE 802.3 Ethernet, 10BASE-TIEEE 802.3u Fast Ethernet, 100BASE-TX,100BASE-FXIEEE 802.3x full-duplex flow control | ||
| Stability Testing | IEC60068-2-32 (free fall)IEC60068-2-27 (shock)IEC60068-2-6 (vibration) | ||
| Temperature | Operating: -40~75 degrees CStorage: -40~85 degrees C | ||
| Humidity | Operating: 5% to 90%, Storage: 5% to 90%(non-condensing) | ||
| Regulation Compliance FCC | Part 15 Class A, CE | ||
| Model ISW-621 ISW-621S15 | |||
| Hardware Specifications | |||
| Copper | Ports | 4 x 10/100BASE-TX, auto-negotiation, auto-MDI/MDI-X | |
| Cable | 10BASE-T: 2-pair UTP Cat. 3, 4, 5 cable (100 meters, max.)100BASE-TX: 2-pair UTP Cat. 5, 5e, 6 cable (100 meters, max.) | ||
| Fiber Optical | Port 2 x 100BASE-FX | ||
| Cable | 50/125μm fiber62.5/125μm fiber | 9/125μm fiber | |
| Mode multi-mode single-mode | |||
| Distance 2km 15km | |||
| Dimensions (W x D x H) 135 x 97 x 32mm | |||
| Weight 442g | |||
| Power Requirements | 12~48V DC, Redundant power with polarity reverse protection function | ||
| Power Consumption /Dissipation | 11.6 watts / 40BTU | ||
| Installation DIN rail kit and wall mount ear | |||
| Switch Specifications | |||
| Switch Processing Scheme Store-and-Forward | |||
| Address Table 2K entries | |||
| Buffer 1Mbit | |||
| Flow Control | Back pressure for half duplex, IEEE 802.3x pause frame for full duplex | ||
| Switch Fabric 1.2Gbps | |||
| Throughput (Packet Per Second) | 0.89Mpps @ 64Bytes | ||
| Standards Conformance | |||
| Standards Compliance | IEEE 802.3 Ethernet, 10BASE-T IEEE 802.3u Fast Ethernet, 100BASE-TX, 100BASE-FX IEEE 802.3x full-duplex flow control | ||
| Stability Testing | IEC60068-2-32 (free fall) IEC60068-2-27 (shock) IEC60068-2-6 (vibration) | ||
| Temperature | Operating: -10~60 degrees C Storage: -40~85 degrees C | ||
| Humidity | Operating: 5% to 90%, Storage: 5% to 90% (non-condensing) | ||
| Regulation Compliance FCC | Part 15 Class A, CE | ||
| Model ISW-621T ISW-621TS15 ISW-621TF | ||||
| Hardware Specifications | ||||
| Copper | Ports 4 x 10/100BASE-TX, auto-negotiation, auto-MDI/MDI-X | |||
| Cable | 10BASE-T : 2-pair UTP Cat. 3, 4, 5 cable (100 meters, max.)100BASE-TX : 2-pair UTP Cat. 5, 5e, 6 cable (100 meters, max.) | |||
| Fiber Optic | Port 2 x 100BASE-FX | |||
| Cable | 50/125μm fiber62.5/125μm fiber | 9/125μm fiber | Multi-Mode:50/125μm fiber62.5/125μm fiberSingle-Mode:9/125μm fiber | |
| Mode multi-mode single-mode | ||||
| Distance 2km 15km | Depend onSFP Module | |||
| Dimensions (W x D x H) | 135 x 97 x 32mm |
| Weight 442g | |
| Power Requirement | 12~48V DC, Redundant power with polarity reverse protection function |
| Power Consumption / Dissipation | 16 watts / 54BTU |
| Installation DIN rail kit and wall mount ear | |
| Switch Specification | |
| Switch Processing Scheme | Store-and-Forward |
| Address Table 2K entries | |
| Buffer 1Mbit | |
| Flow Control | Back pressure for half duplex, IEEE 802.3x pause frame for full duplex |
| Switch Fabric 1.2Gbps | |
| Throughput (Packet Per Second) | 0.89Mpps @ 64Bytes |
| Standards Conformance | |
| Standards Compliance | IEEE 802.3 Ethernet, 10BASE-T IEEE 802.3u Fast Ethernet, 100BASE-TX, 100BASE-FX IEEE 802.3x full-duplex flow control |
| Stability Testing | IEC60068-2-32 (free fall) IEC60068-2-27 (shock) IEC60068-2-6 (vibration) |
| Temperature | Operating: -40~75 degrees C Storage: -40~85 degrees C |
| Humidity Operating | Operating: 5% to 90%, Storage: 5% to 90% (non-condensing) |
| Regulation Compliance FCC Part 15 Class A, CE | |
2. Installation
This section describes the functionalities of the Industrial Fast Ethernet Switch's components and guides how to install it on the desktop. Basic knowledge of networking is assumed. Please read this chapter completely before continuing.
2.1 Product Description
PLANET ISW-511 / ISW-621 series and ISW-511T / ISW-621T series are 4-Port 10/100Mbps + 1/2 100FX Fiber Port Industrial Fast Ethernet Switch with non-blocking wire-speed performance and new slim type with IP30 metal case for easy deployment in Heavy Industrial demanding environments.
With 1 / 1.2Gbps internal switching fabric, the Industrial Fast Ethernet Switch can handle extremely large amounts of data in a secure topology linking to a backbone or high capacity servers.
The Industrial Fast Ethernet Switch has 2K MAC address table and offers wire-speed packets transfer performance without risk of packet loss. The stable throughput of the device makes it ideal for most Ethernet environments.
All RJ45 copper interfaces support 10/100Mbps auto-negotiation for optimal speed detection through RJ45 Category 5, 4 or 3 cables. With auto-MDI/MDI-X, it can detect the type of connection to any Ethernet device without requiring special straight-through or crossover cables.
The flow control function allows Industrial Fast Ethernet Switch supported routers and servers to directly connect to this device for fast, reliable data transfer.
2.1.1 Switch Front Panel
Figures 2-1, 2-2, 2-3 and 2-4 show their front panels.

Figure 2-1 ISW-511 / ISW-511S15 Front Panel

Figure 2-2 ISW-621 / ISW-621S15 Front Panel

Figure 2-3 ISW-511T / ISW-511TS15 Front Panel

Figure 2-4 ISW-621T / ISW-621TS15 Front Panel

Figure 2-5 ISW-621TF Front Panel
2.1.2 LED Indicators
| LED Color Function | |||
| P1 Green | Lit: indicates power 1 has power. | ||
| P2 Green | Lit: indicates power 2 has power. | ||
| FAULT Green | Lit: indicates either power 1 or power 2 has no power. | ||
| 100 Green | Fiber Optic | Lit: indicates the Fiber port is successfully connecting to the network at 100Mbps. | |
| 10/100 Green Copper | Lit: indicates the Switch is successfully connecting to the network at 100Mbps.Off: indicates that the Switch is successfully connecting to the network at 10Mbps. | ||
| LNK/ACT | Green | Fiber Optic | Lit: indicates the link through that port is successfully established.Blinking: indicates that the Switch is actively sending or receiving data over that port. |
| Copper | |||
2.1.3 Switch Upper Panel
The upper panel of the Industrial Fast Ethernet Switch consists of one terminal block connector within two DC power inputs. Figure 2-6 shows the upper panel of the Industrial Fast Ethernet Switch.

Figure 2-6 Industrial Fast Ethernet Switch Upper Panel.
2.1.4 Wiring the Power Inputs
The 6-contact terminal block connector on the top panel of Industrial Fast Ethernet Switch is used for two DC redundant powers input. Please follow the steps below to insert the power wire.
- Insert positive / negative DC power wires into contacts 1 and 2 for POWER 1, or 5 and 6 for POWER 2.

V1- V1 + V2 - V2 +
- Tighten the wire-clamp screws for preventing the wires from loosening.

natural_image
Green plastic electrical connector with four circular slots, shown in two rectangular insets (no text or symbols visible)1 2 3 4 5
6 ____ ____
Power 1 Fault Power 2
- +
- +

Note
The wire gauge for the terminal block should be in the range between 12 and 24 AWG.
2.1.5 Wiring the Fault Alarm Contact
The fault alarm contacts are in the middle of the terminal block connector as the picture shows below. Inserting the wires, the Industrial Fast Ethernet Switch will detect the fault status of the power failure, or port link failure (available for managed model) and then forms an open circuit. The following illustration shows an application example for wiring the fault alarm contacts.

Insert the wires into the fault alarm contacts

Note
-
The wire gauge for the terminal block should be in the range between 12 and 24 AWG.
-
Alarm relay circuit accepts up to 30V, max. 3A currents.

2.2 Mounting Installation
This section describes how to install the Industrial Fast Ethernet Switch and make connections to it. Please read the following topics and perform the procedures in the order being presented.

In the installation steps below, this Manual uses IGS-801 (PLANET 8-Port Industrial Gigabit Switch) as the example. However, the steps for PLANET Industrial Switch and Industrial Media Converter are similar.
2.2.1 Install DIN-Rail Mounting
The DIN-Rail is screwed on the Industrial Gigabit Ethernet Switch when out of factory. When needed to replace the wall mount application with the DIN-Rail application on Industrial Gigabit Ethernet Switch, please refer to the following figures to screw the DIN-Rail on the Industrial Gigabit Ethernet Switch. To hang the Industrial Gigabit Ethernet Switch, follow the steps below:

natural_image
Hand holding a black electronic device with a screwdriver inserted, no visible text or symbolsStep 1: Screw the DIN-rail on the Industrial Fast Ethernet Switch.

Step 2: Lightly insert the bottom of the switch into the track.

natural_image
Black electronic device mounted on a wall with a metallic bracket (no visible text or symbols)Step 3: Check whether the DIN-rail is tightly on the track.
Step 4: Please refer to the following procedures to remove the Industrial Fast Ethernet Switch from the track.

Step 5: To remove the wall mount plate, reverse the steps above.
2.2.2 Wall Mount Plate Mounting
To install the Industrial Fast Ethernet Switch on the wall, please follow the instructions described below.
Step 1: To remove the DIN-Rail from the Industrial Fast Ethernet Switch; loosen the screws to remove the DIN-rail.
Step 2: Place the wall mount plate on the rear panel of the Industrial Fast Ethernet Switch.

natural_image
Hand holding a black electronic device with a metallic rod extending from its side (no visible text or symbols)Step 3: Use the screws to screw the wall mount plate on the Industrial Fast Ethernet Switch.
Step 4: Use the hook holes at the corners of the wall mount plate to hang the Industrial Fast Ethernet Switch on the wall.
Step 5: To remove the wall mount plate, reverse the steps above.
3. Applications
In this paragraph, we will describe how to install Industrial Fast Ethernet Switch and the installation points for the attention.

flowchart
graph TD
subgraph Control Center
A["Control Center"] --> B["ISW-621S15"]
A --> C["ISW-621S15"]
A --> D["ICSA-2100"]
A --> E["ICSA-525"]
A --> F["ICSA-310"]
G["Subway 2"] --> H["ISA-601"]
G --> I["I/O Device"]
J["Subway 1"] --> K["ISA-621S15"]
J --> L["ISA-310"]
M["Fiber Switch"] --> N["15km"]
O["Serial over Ethernet device"] --> P["15km"]
Q["Robot"] --> R["Robot"]
S["PLC"] --> T["PLC"]
U["100Base-TX UTP"] --> V["100Base-FX Fiber-optic"]
W["DI/DO"] --> X["DI/DO"]
end
style Control Center fill:#f9f,stroke:#333
style Maintenance Shop fill:#bbf,stroke:#333
style Subway 1 fill:#dfd,stroke:#333
style Subway 2 fill:#dfd,stroke:#333
style Subway 1 fill:#dfd,stroke:#333
style Subway 2 fill:#dfd,stroke:#333
style Control Center fill:#f9f,stroke:#333
style Maintenance Shop fill:#dfd,stroke:#333

flowchart
```mermaid
graph TD
subgraph Control Center
A["Control Center"] --> B["Isw-511S15"]
A --> C["Isw-511S15"]
A --> D["IC-350"]
A --> E["IC-651"]
A --> F["IC-2100"]
A --> G["PLC"]
A --> H["Robot"]
A --> I["Robot"]
A --> J["IC-310"]
A --> K["IC-2100"]
A --> L["Fiber Switch"]
A --> M["Serial Device Server"]
A --> N["PLC"]
end
subgraph Warehouse
O["Warehouse"] --> P["Isw-511S15"]
O --> Q["Isw-511S15"]
O --> R["IC-350"]
O --> S["IC-2100"]
O --> T["PLC"]
O --> U["IC-310"]
O --> V["Fiber Switch"]
O --> W["Serial Device Server"]
O --> X["PLC"]
end
subgraph Factory
Y["Factory"] --> Z["Isw-511S15"]
Y --> AA["Isw-511S15"]
Y --> AB["IC-350"]
Y --> AC["IC-2100"]
Y --> AD["PLC"]
Y --> AE["IC-310"]
Y --> AF["Fiber Switch"]
Y --> AG["Serial Device Server"]
Y --> AH["PLC"]
end
subgraph Harbor
AI["Harbor"] --> AJ["Isw-511S15"]
AI --> AK["Isw-511S15"]
AI --> AL["IC-350"]
AI --> AM["IC-651"]
end
subgraph Control Center
AN["Control Center"] --> AO["Fiber Switch"]
AN --> AP["Fiber Switch"]
AN --> AQ["Fiber Switch"]
AN --> AR["Fiber Switch"]
end
subgraph Warehouse
AS["Warehouse"] --> AT["Isw-511S15"]
AS --> AU["Isw-511S15"]
AS --> AV["IC-350"]
AS --> AW["IC-2100"]
AS --> AX["PLC"]
AS --> AY["IC-310"]
AS --> AZ["Fiber Switch"]
AS --> BA["Fiber Switch"]
end
subgraph Factory
BB["Factory"] --> BC["Isw-511S15"]
BB --> BD["Isw-511S15"]
BB --> BE["IC-350"]
BB --> BF["IC-2100"]
BB --> BG["PLC"]
BB --> BH["IC-310"]
BB --> BI["Fiber Switch"]
BB --> BJ["Fiber Switch"]
end
subgraph Harbor
BK["Harbor"] --> BL["Isw-511S15"]
BK --> BM["Isw-511S15"]
BK --> BN["IC-350"]
BK --> BO["IC-651"]
end
subgraph Control Center
BP["Control Center"] --> BQ["Fiber Switch"]
BP --> BR["Fiber Switch"]
end
subgraph Warehouse
BS["Warehouse"] --> BT["Isw-511S15"]
BS --> BU["Isw-511S15"]
BS --> BV["IC-350"]
BS --> BW["IC-2100"]
BS --> BX["PLC"]
BS --> BY["IC-310"]
end
subgraph Factory
BZ["Factory"] --> CA["Isw-511S15"]
BZ --> CB["Isw-511S15"]
BZ --> CC["IC-350"]
BZ --> CD["IC-2100"]
BZ --> CE["PLC"]
BZ --> CF["IC-310"]
end
subgraph Harbor
GD["Harbor"] --> DH["Isw-511S15"]
GD --> DI["Isw-511S15"]
GD --> DJ["IC-350"]
GD --> DK["IC-2100"]
GD --> DL["PLC"]
end
subgraph Control Center
DM["Control Center"] --> DP["Fiber Switch"]
DM --> DPF["Fiber Switch"]
end
subgraph Warehouse
Q["Warehouse"] --> R["Isw-511S15"]
Q --> S["Isw-511S15"]
Q --> T["IC-350"]
Q --> U["IC-2100"]
Q --> V["PLC"]
end
subgraph Factory
W["Factory"] --> X["Isw-511S15"]
W --> Y["Isw-511S15"]
W --> Z["IC-350"]
W --> AA["IC-2100"]
W --> AB["PLC"]
end
subgraph Harbor
AC["Harbor"] --> AD["ICA-651"]
AC --> AE["ICA-350"]
end
subgraph Control Center
AF["ICA-651"] --> AG["ICA-350"]
end
subgraph Warehouse
AH["ICA-350"] --> AI["ICA-310"]
end
subgraph Factory
AJ["ICA-310"] --> AK["ICA-310"]
end
subgraph Harbor
AL["ICA-310"] --> AM["ICA-310"]
end
subgraph Control Center
AN["ICA-310"] --> AO["ICA-310"]
end
subgraph Warehouse
AP["ICA-310"] --> AQ["ICA-310"]
end
subgraph Factory
AR["ICA-310"] --> AS["ICA-310"]
end
subgraph Harbor
AT["ICA-310"] --> AU["ICA-310"]
end
subgraph Control Center
AV["ICA-310"] --> AW["ICA-310"]
end
subgraph Warehouse
AX["ICA-310"] --> AY["ICA-310"]
end
subgraph Factory
AZ["ICA-310"] --> BA["ICA-310"]
end
subgraph Harbor
BB["ICA-310"] --> BC["ICA-310"]
end
subgraph Control Center
BD["ICA-310"] --> BE["ICA-310"]
end
subgraph Warehouse
BF["ICA-310"] --> BG["ICA-310"]
end
subgraph Factory
BH["ICA-310"] --> BI["ICA-310"]
end
subgraph Harbor
BJ["ICA-310"] --> BK["ICA-310"]
end
subgraph Control Center
BL["ICA-310"] --> BM["ICA-310"]
end
subgraph Warehouse
BN["ICA-310"] --> BO["ICA-310"]
end
subgraph Factory
BP["ICA-310"] --> BQ["ICA-310"]
end
subgraph Harbor
BR["ICA-310"] --> BS["ICA-310"]
end
subgraph Control Center
BT["ICA-310"] --> BU["ICA-310"]
end
subgraph Warehouse
BV["ICA-310"] --> BW["ICA-310"]
end
subgraph Factory
BX["ICA-310"] --> BY["ICA-310"]
end
subgraph Harbor
BZ["ICA-310"] --> CAI["ICA-310"]
end
subgraph Control Center
CB["ICA-310"] --> CC["ICA-310"]
end
subgraph Warehouse
DD["ICA-310"] --> DEI["ICA-310"]
subgraph Factory
BEI["ICA-310"] --> BFII["ICA-310"]
subgraph Harbor
BFII["ICA-310"] --> BGII["ICA-310"]
subgraph Control Center
BHII["ICA-310"] --> BHIII["ICA-310"]
subgraph Warehouse
BIII["ICA-310"] --> BJII["ICA-310"]
subgraph Factory
BKII["ICA-310"] --> BKIII["ICA-310"]
subgraph Harbor
BLII["ICA-310"] --> BLIII["ICA-310"]
subgraph Control Center
BNII["ICA-310"] --> BNIII["ICA-310"]
subgraph Warehouse
BOII["ICA-310"] --> BOIII["ICA-310"]
subgraph Factory
BPII["ICA-310"] --> BPIII["ICA-310"]
subgraph Harbor
BQII["ICA-310"] --> BQIII["ICA-310"]
subgraph Control Center
BWII["ICA-310"] --> BWIII["ICA-310"]
subgraph Warehouse
BXII["ICA-310"] --> BXIII["ICA-310"]
subgraph Factory
BQIIII["Robot"] & BQIII["Robot"] & BQIII["Robot"] & BQIII["Robot"] & BQIII["Robot"] & BQIII["Robot"] & BQIII["Robot"] & BQIII["Robot"] & BQIII["Robot"] & BQIII["Robot"] & BQIII["Robot"] & BQIII["Robot"] & BQIII["Robot"] & BQIII["Robot"] & BQIII["Robot"] & BQIII["R Bot"] & BQIII["RBot"] & BQIII["RBot"] & BQIII["RBot"] & BQIII["RBot"] & BQIII["RBot"] & BQIII["RBot"] & BQIII["RBot"] & BQIII["RBot"] & BQIII["RBot"] & BQIII["RBot"] & BQIII["RBot"] & BQIII["RBot"] & BQIII["RBot"] & BQIII["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["RBot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] & BQ_III["R Bot"] &
Bq_III["R Bot"] & Bq_III["R Bot"]

flowchart
graph TD
A["Weather Station"] -->|15km| B["Fiber Switch"]
C["Desert"] -->|15km| B
D["Data Center"] -->|15km| B
E["Steel Factory"] -->|100Base-FX Fiber-optic| B
F["Weather Station"] -->|IP Camera ISW-511TS15| G["IP Camera"]
H["Desert"] -->|ISW-511TS15| I["IP Camera"]
J["Data Center"] -->|ISW-511TS15| K["ISW-511TS15"]
L["Steel Factory"] -->|ISW-511T| M["ISW-511T"]
N["Weather Station"] -->|IP Camera ISW-511TS15| O["IP Camera"]
P["Desert"] -->|ISW-511TS15| Q["IP Camera"]
R["Data Center"] -->|ISW-511TS15| S["ISW-511TS15"]
T["Steel Factory"] -->|ISW-511T| U["ISW-511T"]
V["Weather Station"] -->|IP Camera ISW-511TS15| W["IP Camera"]
X["Desert"] -->|ISW-511TS15| Y["IP Camera"]
Z["Data Center"] -->|ISW-511TS15| AA["ISW-511TS15"]
AB["Steel Factory"] -->|ISW-511T| AC["ISW-511T"]
AD["Weather Station"] -->|IP Camera ISW-511TS15| AE["IP Camera"]
AF["Desert"] -->|ISW-511TS15| AG["IP Camera"]
AH["Data Center"] -->|ISW-511TS15| AI["ISW-511TS15"]
AJ["Steel Factory"] -->|ISW-511T| AK["ISW-511T"]

flowchart
graph TD
subgraph Weather Station
A["IP Camera IP Camera"] --> B["ISW-621TS15"]
C["IP Camera"] --> B
D["IP Camera"] --> B
end
subgraph Desert
E["IP Camera"] --> F["ISW-621TS15"]
G["IP Camera"] --> F
H["IP Camera"] --> F
end
subgraph Data Center
I["Fiber Switch"] --> J["Water Station"]
K["Water Station"] --> L["Water Station"]
M["Water Station"] --> N["Water Station"]
end
subgraph Winter Season of Country
O["Winter Season of Country"] --> P["Water Station"]
Q["Water Station"] --> P
R["Water Station"] --> S["Water Station"]
end
subgraph Steel Factory
T["Steel Factory"] --> U["IP Camera"]
V["IP Camera"] --> U
W["IP Camera"] --> U
X["IP Camera"] --> U
Y["IP Camera"] --> U
end
style Weather Station fill:#f9f,stroke:#333
style Desert fill:#f9f,stroke:#333
style Data Center fill:#ccf,stroke:#333
style Steel Factory fill:#ccf,stroke:#333
style Winter Season of Country fill:#cfc,stroke:#333

flowchart
graph TD
subgraph Weather Station
A["IP Camera"] --> B["IP Camera"]
B --> C["ISW-621TF"]
C --> D["Data Center"]
D --> E["Fiber Switch"]
E --> F["ISW-621TF"]
F --> G["Desert"]
G --> H["IP Camera"]
H --> I["ISW-621TF"]
I --> J["Steel Factory"]
end
subgraph Data Center
K["ISW-621TF"] --> L["Winter season of Country"]
L --> M["60km (Single mode)"]
M --> N["ISW-621TF"]
N --> O["2km (Multi-mode) 2km (Multi-mode)"]
O --> P["Water Station"]
Q["IP Camera"] --> R["IP Camera"]
R --> S["ISW-621TF"]
S --> T["Steel Factory"]
T --> U["ISW-621TF"]
U --> V["Steel Factory"]
end
style Weather Station fill:#f9f,stroke:#333
style Data Center fill:#ccf,stroke:#333
style Desert fill:#cfc,stroke:#333
style Steel Factory fill:#fcc,stroke:#333
style Earth fill:#ffc,stroke:#333
Installation Steps
Step 1: Unpack the Industrial Fast Ethernet Switch.
Step 2: Check whether the DIN-rail is screwed on the Industrial Fast Ethernet Switch. (Please refer to DIN-rail mounting section for DIN-rail installation. If you want to wallmount the Industrial Fast Ethernet Switch, then please refer to the Wall-mount Plate Mounting section for wallmount plate installation.
Step 3: To hang the Industrial Fast Ethernet Switch on the DIN-rail track or wall, please refer to the Mounting Installation section.
Step 4: Power on the Industrial Fast Ethernet Switch (Please refer to the Wiring of the Power Inputs section for power input). The power LED on the Industrial Fast Ethernet Switch will light up. Please refer to the LED Indicators section for LED status.
Step 5: Prepare the twisted-pair, straight-through Category 5 cable for Ethernet connection.
Step 6: Insert one side of Category 5 cables into the Industrial Fast Ethernet Switch Ethernet port (RJ45 port) and the other to the network devices' Ethernet port (RJ45 port), e.g., Switch, PC or Server. The UTP port (RJ45) LED on the Industrial Fast Ethernet Switch will light up when the cable is connected with the network device. Please refer to the LED Indicators section for LED status.

Make sure the connected network devices support MDI/MDI-X. If the network devices do not support MDI/MDI-X, please use the crossover Category 5 cable to connect.
Step 7: Insert fiber cable from the ISW-511 / 621 series or ISW-511T / ISW-621T series to the fiber network. TX, RX must be paired at both ends. The optical port LED on the Industrial Fast Ethernet Switch will light up when the cable is connected with network device. Please refer to the LED Indicators section for LED status.
Step 8: When all connections are set and all LEDs are lit without any issue, the installation is complete.
4. Switch Operation
4.1 Address Table
The Industrial Fast Ethernet Switch is implemented with an address table. This address table is composed of many entries. Each entry is used to store the address information of some node in the network, including MAC address, port no., etc. This information comes from the learning process of Industrial Fast Ethernet Switch.
4.2 Learning
When one packet comes from any port of Industrial Fast Ethernet switch, the Industrial Fast Ethernet Switch will record the source address, port no. and the other related information in address table. This information will be used to decide either forwarding or filtering for future packets.
4.3 Forwarding & Filtering
When one packet comes from some port of the Industrial Fast Ethernet Switch, it will also check the destination address besides the source address learning. The Industrial Fast Ethernet Switch will look up the address table for the destination address. If not found, this packet will be forwarded to all the other ports except the port where this packet comes in. And these ports will transmit this packet to the network if connected. If found and the destination address is located at a different port from this packet comes in, the Industrial Fast Ethernet Switch will forward this packet to the port where this destination address is located according to the information from address table. But, if the destination address is located at the same port where this packet comes in, then this packet will be filtered.
4.4 Store-and-Forward
Store-and-Forward is one type of packet-forwarding techniques. A Store-and-Forward Industrial Switch stores the incoming frames in an internal buffer and checks any error from the frames before transmission. No error packets occurrence, it is the best choice when a network needs efficiency and stability.
The Industrial Fast Ethernet Switch scans the destination address from the packet-header, searches the routing table provided for the incoming port and forwards the packet, only if required. The fast forwarding makes the switch attractive for connecting servers directly to the network, thereby increasing throughput and availability. However, the switch is most commonly used to segment existing hubs, which nearly always improves overall performance. An Ethernet Switching can be easily configured in any Ethernet network environment to significantly boost bandwidth using conventional cabling and adapters.
Due to the learning function of the Industrial Fast Ethernet Switch, the source address and corresponding port number of each incoming and outgoing packet are stored in a routing table. This information is subsequently used to filter packets whose destination address is on the same segment as the source address. This confines network traffic to its respective domain, reducing the overall load on the network.
The Industrial Fast Ethernet Switch performs "Store-and-Forward" therefore, no error packets occur. More reliably, it reduces the re-transmission rate. No packet loss will occur.
4.5 Auto-negotiation
The STP ports on the Industrial Fast Ethernet Switch have built-in "Auto-negotiation". This technology automatically sets the best possible bandwidth when a connection is established with another network device (usually at Power On or Reset). This is done by detecting the modes and speeds at the second of both devices that are connected and capable of. Both 10BASE-T and 100BASE-TX devices can connect with the port in either half- or full-duplex mode.
5. Troubleshooting
This chapter contains information to help you solve issues. If the Industrial Fast Ethernet Switch is not functioning properly, make sure the Industrial Fast Ethernet Switch was set up according to instructions in this manual.
The Link LED is not lit
Solution:
Check the cable connection of the Industrial Fast Ethernet Switch.
Link LED is lit, but the traffic is irregular
Solution:
Check whether the attached device is not set to dedicated full duplex. Some devices use a physical or software switch to change duplex modes. Auto-negotiation may not recognize this type of full-duplex setting.
Why doesn't the Industrial Fast Ethernet Switch connect to the network?
Solution:
-
Check every port LED on the Industrial Fast Ethernet Switch.
-
Try another port on the Industrial Fast Ethernet Switch to make sure the cable is installed properly while making sure the cable is the right type.
-
Turn off the power and turn on the power again after a while.
APPENDIX A: Networking Connection
A.1 Switch's RJ45 Pin Assignments
10/100Mbps, 10/100BASE-TX
| RJ45 Connector pin assignment | ||
| Contact | MDIMedia Dependent Interface | MDI-XMedia DependentInterface -Cross |
| 1 Tx + (transmit) Rx + (receive) | ||
| 2 Tx - (transmit) Rx - (receive) | ||
| 3 Rx + (receive) Tx + (transmit) | ||
| 4, 5 Not used | ||
| 6 Rx - (receive) Tx - (transmit) | ||
| 7, 8 Not used | ||
A.2 RJ45 cable Pin Assignments

natural_image
3D rendering of a Ethernet RJ4 connector (no text or symbols visible)
natural_image
Illustration of a USB connector with a curved cable (no text or symbols)The standard RJ45 receptacle/connector
There are 8 wires on a standard UTP/STP cable and each wire is color-coded. The following shows the pin allocation and color of straight-through cable and crossover cable connection:
Straight Cable

SIDE 1
SIDE 2
SIDE 1
| 1 = White/Orange |
| 2 = Orange |
| 3 = White/Green |
| 4 = Blue |
| 5 = White/Blue |
| 6 = Green |
| 7 = White/Brown |
| 8 = Brown |
SIDE 2
| 1 = White/Orange |
| 2 = Orange |
| 3 = White/Green |
| 4 = Blue |
| 5 = White/Blue |
| 6 = Green |
| 7 = White/Brown |
| 8 = Brown |
Cross Over Cable

SIDE 1
SIDE 2
SIDE 1 SIDE 2
| 1 = White/Orange |
| 2 = Orange |
| 3 = White/Green |
| 4 = Blue |
| 5 = White/Blue |
| 6 = Green |
| 7 = White/Brown |
| 8 = Brown |
[EMPTY]
1 = White/Green
2 = Green
3 = White/Orange
4 = Blue
5 = White/Blue
6 = Orange
7 = White/Brown
8 = Brown
Figure A-1: Straight-through and Crossover Cables
Please make sure your connected cables are with same pin assignment and color as the above picture before deploying the cables into your network.
EC Declaration of Conformity
For the following equipment:
*Type of Product : 4+1 / 4+2 100FX Port Industrial Ethernet Switch
*Model Number : ISW-511 / ISW-511S15 / ISW-511T / ISW-511TS15
ISW-621 / ISW-621S15 / ISW-621T / ISW-621TS15 / ISW-621TF
* Produced by:
Manufacturer's Name : Planet Technology Corp.
Manufacturer's Address : 10F., No.96, Minquan Rd., Xindian Dist.,
New Taipei City 231, Taiwan (R.O.C.)
is herewith confirmed to comply with the requirements set out in the Council Directive on the Approximation of the Laws of the Member States relating to Electromagnetic Compatibility Directive on (2004/108/EC).
For the evaluation regarding the EMC, the following standards were applied:
Emission EN 55022 (Class A: 2006)
Harmonic EN 61000-3-2 (2006)
Flicker EN 61000-3-3 (1995 + A1: 2001 + A2: 2005)
Immunity EN 55024 (1998 + A1: 2001 + A2: 2003)
ESD IEC 61000-4-2 (2001)
RS IEC 61000-4-3 (2008)
EFT/ Burst IEC 61000-4-4 (2004)
Surge IEC 61000-4-5 (2005)
CS IEC 61000-4-6 (2008)
Magnetic Field IEC 61000-4-8 (2001)
Voltage Disp IEC 61000-4-11 (2004)
Responsible for marking this declaration if the:
☑ Manufacturer ☐ Authorized representative established within the EU
Authorized representative established within the EU (if applicable):
Company Name: Planet Technology Corp.
Company Address: 10F., No.96, Minquan Rd., Xindian Dist., New Taipei City 231, Taiwan(R.O.C.)
Person responsible for making this declaration
Name, Surname Kent Kang
Position / Title : Product Manager
Taiwan
Place
25 ^nd , March, 2011
Date

Legal Signature