D-Link Dgs1005g 5port Manual

							D-Link DGS-1005D Unmanaged Gigabit Ethernet Switch 
 
LED Indicators 
The LED indicators of the Switch include Power, and Link/Act/Speed. The following shows the LED indicators for the 
Switch along with an explanation of each indicator. 
 
 
Figure 1-2. LED Indicators 
Comprehensive LED indicators display the conditions of the Switch and status of the network. A description of these 
LED indicators follows (see LED Indicators). The LED indicators of the Switch include Power, Link/Act/Speed. The 
Cable Diagnostics functions of the Switch are indicated by Link/Act/Speed LED, as described below.
 
 Power Indicator  
This green indicator light is on when the Switch is receiving power; otherwise, it is off. 
 Link/Act/Speed 
When connected to a 1000Mbps device, this LED indicator light is green when the port is connected to a 
device and will blink as data is transmitted or received. 
When connected to a 10/100Mbps device, this LED indicator light is amber when the port is connected to a 
device and will blink as data is transmitted or received. 
 Cable Diagnostics  LED Indications 
When the Switch is booted up (when the Switch is first powered on), the Cable Diagnostics function is 
initialized and run. The Cable Diagnostics function will detect three common faults in an Ethernet cable 
connecting the Switch to a remote network device: an open circuit (a lack of continuity between the pins at 
each end of the Ethernet cable or a disconnected cable), a short circuit (two or more conductors short-
circuited), and improper termination (a termination resistance greater than the specified 100 ohms). Any of 
these common cable faults will be detected by the Cable Diagnostics function and the LEDs will display the 
results of the Cable Diagnostics function.  
The Cable Diagnostics first scans the 5 / 8 Ethernet ports to determine if the Ethernet cable is in good 
working order. This process is indicated by the Link/Act/Speed LED blinking green for each of the 5 / 8 ports 
sequentially. If a cable fault is detected, it is indicated by the corresponding port’s Link/Act/Speed LED 
glowing amber after the initial port scan. If the cable connection is good, the corresponding port’s 
Link/Act/Speed LED will glowing green. After the display of cable status, the Switch is then reset for normal 
operation. 
Note: There is no display of cable faults detected by the Cable Diagnostics during the normal operation of the 
Switch, only when the Switch is booted up or power-cycled. 
  
						

							D-Link DGS-1005D Unmanaged Gigabit Ethernet Switch 
 
Rear Panel Description 
DC Power Jack: 
Power is supplied through an external AC power adapter. Check the technical specification section for information about 
the AC power input voltage. 
 
 
 
Figure 1-3.  Rear panel view of the Switch 
10/100/1000BASE-T Ports: 
Five (5) Gigabit Ethernet, Auto-Negotiating ports (10/100/1000Mbps) 
Comprehensive LED indicators display the conditions of the Switch and status of the network.  
 
 
 
 
 
 
 
 
 
 
 
 
 
  
						

							D-Link DGS-1005D Unmanaged Gigabit Ethernet Switch 
 
SECTION 2 
 
Installation 
 
 Package  Contents 
Before You Connect to the Network 
 Installing the Switch 
 Power  On 
 
Package Contents 
Open the shipping carton of the Switch and carefully unpack its contents. The carton should contain the following items: 
 
 One DGS-1005D 5-Port 10/100/1000BASE-T Gigabit Ethernet Switch 
 One external power adapter 
 Wall-mounting kit 
 CD with documentation  
 
If any item is missing or damaged, please contact your local D-Link reseller for replacement. 
 
Before You Connect to the Network 
The site where you install the Switch may greatly affect its performance. Please follow these guidelines for setting up the 
Switch. 
 Install the Switch on a sturdy, level surface that can support at least 3 kg (6.6 lbs.) of weight. Do not place heavy 
objects on the Switch. 
 The power outlet should be within 1.82 meters (6 feet) of the Switch. 
 Visually inspect the power cord and see that it is fully secured to the AC power port. 
 Make sure that there is adequate space for proper heat dissipation from and adequate ventilation around the Switch. 
Leave at least 10 cm (4 inches) of space at the front and rear of the Switch for ventilation. 
 Install the Switch in a fairly cool and dry place for the acceptable temperature and humidity operating ranges. 
 Install the Switch in a site free from strong electromagnetic field generators (such as motors), vibration, dust, and 
direct exposure to sunlight. 
 When installing the Switch on a level surface, attach the rubber feet to the bottom of the device. The rubber feet 
cushion the Switch, protect the casing from scratches, and prevent it from scratching other surfaces. 
 
  
						

							D-Link DGS-1005D Unmanaged Gigabit Ethernet Switch 
 
Mounting the Switch on a Wall 
The DGS-1005D can also be mounted on a wall. Two mounting slots are provided on the bottom of the switch for this 
purpose. Please make sure that the front panel is exposed in order to view the LEDs. Please refer to the illustration below: 
A.)  Mounting on a cement wall  
1. Mount the Nylon screw anchors into a cement wall. 
2. Drive the T3 x 15L screws into the Nylon screw anchors. 
3. Hook the mounting holes of the switch back on the screws; you have completed the wall-mount. 
 
B.)  Mounting on a wood wall 
1.   Drive the T3 x 15 L screws into the wood wall. 
2.   Hook the mounting holes of the switch back on the screws; you have completed the wall-mount. 
 
 
 
 
 
 
 
 
 
 
 
 
Figure 2-1.  Mounting the Switch to a Wall  
 
C.) Mounting on a metal wall  
1. Mount the magnetic base screws (optional) onto the mounting holes of the switch. 
2. Attach the switch to a metallic surface. 
3. The magnet kit is optional and is not included in the package contents. 
Power On 
Plug one end of the AC to DC power adapter into the power connector of the Switch and the other end into the local power 
source outlet.  
After the Switch is powered on, the LED indicators will momentarily blink. This blinking of the LED indicators represents 
a reset of the system. 
 
Power Failure 
As a precaution, in the event of a power failure, unplug the Switch. When power is resumed, plug the Switch back in. 
 
(1)   3/4 inch minimum for wood wall. 
 
(2)    3 inch minimum for cement wall.  
						

							D-Link DGS-1005D Unmanaged Gigabit Ethernet Switch 
 
Section 3  
Connecting The Switch 
 
Switch To End Node 
Switch To Hub or Switch 
Connecting To a Server 
 
 
Switch To End Node 
End nodes include PCs outfitted with a 10, 100, or 1000 Mbps RJ-45 Ethernet/Fast Ethernet Network Interface Card (NIC) 
and most routers. 
An end node can be connected to the Switch via a twisted-pair Category 3, 4, 5, or 5e UTP/STP cable. The end node can be 
connected to any of the ports of the Switch.   
 
 
Figure 3-1. Switch connected to an end node 
 
Switch to Hub or Switch 
These connections can be accomplished in a number of ways using a standard Ethernet cable. 
 
 A 10BASE-T hub or switch can be connected to the Switch via a twisted-pair Category 3, 4, 5, or 5e UTP/STP 
cable. 
 A 100BASE-T hub or switch can be connected to the Switch via a twisted -pair Category 5 or better UTP/STP 
cable.   
 A 1000BASE-T switch can be connected to the Switch via a twisted -pair Category 5 or better UTP/STP cable.   
 
NOTE: All 5 high-performance NWay Ethernet ports can support both 
MDI-II and MDI-X connections.  
						

							D-Link DGS-1005D Unmanaged Gigabit Ethernet Switch 
 
 
Figure 3-2. Switch connected to a port on a hub or switch using either a straight or crossover cable–any 
standard Ethernet cable is fine 
 
Connecting To Network Backbone or Server 
Any of the five Gigabit Ethernet ports are ideal for uplinking to a network backbone or network server.  
 
 
Figure 3-3. Connection to a Server 
 
 
 
 
  
						

							D-Link DGS-1005D Unmanaged Gigabit Ethernet Switch 
 
Appendix A 
Technical Specifications 
 
General 
Standards: IEEE 802.3ab 1000BASE-T 
IEEE 802.3u 100BASE-TX 
IEEE 802.3 10BASE-T 
IEEE 802.3x Flow Control 
IEEE 802.1p priority Queues 
Protocol: CSMA/CD 
Data Transfer 
Rate: 10Mbps (Half-duplex)  Ethernet: 
20Mbps (Full-duplex) 
100Mbps (Half-duplex)  Fast Ethernet: 
200Mbps (Full-duplex) 
Gigabit Ethernet: 2000Mbps  (Full-duplex) 
 
Topology: Star 
Network Cables: Ethernet:  2-pair UTP Cat. 3,4,5, Unshield Twisted Pair (UTP) Cable  
Fast Ethernet:  2-pair UTP Cat. 5, Unshield Twisted Pair (UTP) Cable 
Gigabit Ethernet: 4-pair UTP Cat. 5, Unshield Twisted Pair (UTP) Cable 
 
Number of Ports: Five 10/100/1000BASE-T Gigabit Ethernet ports 
 
Physical and Environmental 
DC Inputs: AC-DC 5V/1.2A 
This unit is to be used with a power supply listed below, or equivalent: 
CF0605-B / AMS1-0501200FU for USA     CF0605-D / AMS1-0501200FS for Australia 
CF0605-C / AMS1-0501200FB for UK       CF0605-N / AMS1-0501200FC for China 
CF0605-E / AMS1-0501200FV for Europe 
(Different power lists would be packed for different shipping regions)  
Operating 
Temperature: 0 C ~ 40℃(32F ~ 104F ) 
Storage 
Temperature: -10C ~ 70C (14F ~ 158F) 
Humidity: 5% ~ 95% RH, non-condensing 
Dimensions: 5.7 in x 4.0 in x 1.3 in 
(144.2 mm x 100.2 mm x 32.6 mm) 
EMI FCC Class B, ICES-003 Class B, CE Class B, VCCI Class B 
Safety: cUL + CB 
  
						

							D-Link DGS-1005D Unmanaged Gigabit Ethernet Switch 
 
Performance 
Transmission 
Method: Store-and-forward 
RAM Buffer: 128KBytes per device 
Filtering Address 
Table: 4K MAC address per device 
Packet Filtering/ 
Forwarding Rate: Full wire speed 
MAC Address 
Learning: Self-learning, auto-aging  
						

							D-Link DGS-1005D Unmanaged Gigabit Ethernet Switch 
 
Glossary 
1000BASE-SX – A short laser wavelength on multimode fiber optic cable for a maximum length of 550 meters. 
1000BASE-LX – A long wavelength for a long haul fiber optic cable for a maximum length of 10 kilometers. 
100BASE-FX – 100Mbps Ethernet implementation over fiber. 
100BASE-TX – 100Mbps Ethernet implementation over Category 5 and Type 1 Twisted Pair cabling. 
10BASE-T – The IEEE 802.3 specification for Ethernet over Unshielded Twisted Pair (UTP) cabling. 
aging –  The automatic removal of dynamic entries from the Switch Database which have timed-out and are no longer 
valid. 
ATM – Asynchronous Transfer Mode. A connection oriented transmission protocol based on fixed length cells 
(packets). ATM is designed to carry a complete range of user traffic, including voice, data, and video signals. 
auto-negotiation – A feature on a port, which allows it to advertise its capabilities for speed, duplex, and flow control. 
When connected to an end station that also supports auto-negotiation, the link can self-detect its optimum operating 
setup.  
backbone port – A port that does not learn device addresses, and that receives all frames with an unknown address. 
Backbone ports are normally used to connect the Switch to the backbone of your network. Note that backbone ports 
were formerly known as designated downlink ports. 
backbone – The part of a network used as the primary path for transporting traffic between network segments. 
Bandwidth – Information capacity, measured in bits per second, that a channel can transmit. The bandwidth of 
Ethernet is 10Mbps, the bandwidth of Fast Ethernet is 100Mbps. 
baud rate – The switching speed of a line. Also known as line speed. 
BOOTP – The BOOTP protocol allows you to automatically map an IP address to a given MAC address each time a 
device is started. In addition, the protocol can assign the subnet mask and default gateway to a device. 
bridge – A device that interconnects local or remote networks no matter what higher level protocols are involved. 
Bridges form a single logical network, centralizing network administration. 
broadcast – A message sent to all destination devices on the network. 
broadcast storm – Multiple simultaneous broadcasts that typically absorb available network bandwidth and can cause 
network failure. 
console port – The port on the Switch accepting a terminal or modem connector. It changes the parallel arrangement 
of data within computers to the serial form used on data transmission links. This port is most often used for dedicated 
local management. 
CSMA/CD – Channel access method used by Ethernet and IEEE 802.3 standards, in which devices transmit only after 
finding the data channel clear for some period of time. When two devices transmit simultaneously, a collision occurs 
and the colliding devices delay their retransmissions for a random amount of time. 
data center switching – The point of aggregation within a corporate network where a switch provides high-
performance access to server farms, a high-speed backbone connection, and a control point for network management 
and security. 
Ethernet – A LAN specification developed jointly by Xerox, Intel, and Digital Equipment Corporation. Ethernet 
networks operate at 10Mbps using CSMA/CD to run over cabling. 
Fast Ethernet – 100Mbps technology based on the Ethernet/CD network access method. 
Flow Control – (IEEE 802.3x) A means of holding packets back at the transmit port of the connected end station. 
Prevents packet loss at a congested switch port. 
forwarding – The process of sending a packet toward its destination by an internetworking device. 
full duplex – A system that allows packets to be transmitted and received at the same time and, in effect, doubles the 
potential throughput of a link. 
half duplex – A system that allows packets to be transmitted and received, but not at the same time. Contrast with full 
duplex. 
IP address – Internet Protocol address. A unique identifier for a device attached to a network using TCP/IP. The 
address is written as four octets separated with full-stops (periods), and is made up of a network section, an optional 
subnet section and a host section. 
IPX – Internetwork Packet Exchange. A protocol allowing communication in a NetWare network. 
LAN – Local Area Network. A network of connected computing resources (such as PCs, printers, servers) covering a 
relatively small geographic area (usually not larger than a floor or building). Characterized by high data rates and low 
error rates.  
						

							D-Link DGS-1005D Unmanaged Gigabit Ethernet Switch 
  latency – The delay between the time a device receives a packet and the time the packet is forwarded out of the 
destination port. 
line speed – See baud rate. 
main port – The port in a resilient link that carries data traffic in normal operating conditions. 
MDI – Medium Dependent Interface. An Ethernet port connection where the transmitter of one device is connected to 
the receiver of another device. 
MDIX – Medium Dependent Interface Cross-over. An Ethernet port connection where the internal transmit and 
receive lines are crossed. 
MIB – Management Information Base. Stores a device’s management characteristics and parameters. MIBs are used 
by the Simple Network Management Protocol (SNMP) to contain attributes of their managed systems. The Switch 
contains its own internal MIB.  
multicast – Single packets copied to a specific subset of network addresses. These addresses are specified in the 
destination-address field of the packet. 
protocol – A set of rules for communication between devices on a network. The rules dictate format, timing, 
sequencing, and error control. 
resilient link – A pair of ports that can be configured so that one will take over data transmission should the other fail. 
See also main port and standby port. 
RJ-45 – Standard 8-wire connectors for IEEE 802.3 10BASE-T networks. 
RMON – Remote Monitoring. Subset of SNMP MIB II, which allows monitoring and management capabilities by 
addressing up to ten different groups of information. 
RPS – Redundant Power System. A device that provides a backup source of power when connected to the Switch. 
server farm – A cluster of servers in a centralized location serving a large user population. 
SLIP – Serial Line Internet Protocol. A protocol that allows IP to run over a serial line connection. 
SNMP – Simple Network Management Protocol. A protocol originally designed to be used in managing TCP/IP 
internets. SNMP is presently implemented on a wide range of computers and networking equipment and may be used 
to manage many aspects of network and end station operation. 
Spanning Tree Protocol – (STP) A bridge-based system for providing fault tolerance on networks. STP works by 
allowing you to implement parallel paths for network traffic, and to ensure that redundant paths are disabled when the 
main paths are operational and enabled if the main paths fail. 
stack – A group of network devices that are integrated to form a single logical device. 
standby port – The port in a resilient link that will take over data transmission if the main port in the link fails. 
switch – A device that filters, forwards, and floods packets based on the packet’s destination address. The Switch 
learns the addresses associated with each switch port and builds tables based on this information to be used for the 
switching decision. 
TCP/IP – A layered set of communications protocols providing Telnet terminal emulation, FTP file transfer, and other 
services for communication among a wide range of computer equipment. 
Telnet – A TCP/IP application protocol that provides virtual terminal service, letting a user log in to another computer 
system and access a host as if the user were connected directly to the host. 
TFTP – Trivial File Transfer Protocol. Allows you to transfer files (such as software upgrades) from a remote device 
using your switch’s local management capabilities. 
UDP – User Datagram Protocol. An Internet standard protocol that allows an application program on one device to 
send a datagram to an application program on another device. 
VLAN – Virtual LAN. A group of location- and topology-independent devices that communicate as if they are on a 
common physical LAN. 
VLT – Virtual LAN Trunk. A Switch-to-Switch link which carries traffic for all the VLANs on each Switch. 
VT100 – A type of terminal which uses ASCII characters. VT100 screens have a text-based appearance.