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PT. MEDIA TECHNO INDONESIA
Hardware installation work
PepingWering
Carrying out Peping Wering and other installation work such as:
- Installasi Fiber Optic
- Installasi Panel
- Installasi GPON
- Installasi Drop Core
- Installasi BAS – Building Automation System
- Installasi IP Camera
- Installasi Access Control
- Bilge Alarm Installation for Ships
- CCTV and IP Camera Installation for Ships
- Watertight doors for ships
- Sensor Bilge Alarm
- Navigation lights for ships
- Engine alarm control system for ships
- Speed Log & Echo Sounder for boats
- Synchronize generator for ships
- Gyro compass
- Bow Thruster Control System
- Fire Alarm System for ships
- Supply Fan and Exhaust Fan
- BNWAS installation for ships
Product :
PT. Media Techno Indonesia
Explanation of P2P & FFTH Network Performance
By: PT. Media Techno Indonesia
FTTH topology in the world of telecommunications supports an important role in data transmission speed. FTTH topology is also favored because it uses fiber optics.
Understanding FTTH
Fiber To The Home (FTTH) is a broadband network technology that uses optical fiber to connect a home or building to an internet network. This technology enables high-speed and stable data transmission, and can handle modern internet needs such as video streaming, gaming and cloud-based applications.
Types of FTTH Topology
FTTH topology refers to the way optical fibers are installed and connected to a home or building. There are several types of FTTH topology, namely:
1. Point-to-Point (P2P)
P2P is the simplest FTTH topology. Each house or building is connected directly to the network center via fiber optics. Each optical fiber is only used to connect one house or building, so there is no bandwidth sharing between users. P2P provides the best performance, but is also the most expensive solution.
2. Passive Optical Network (PON)
PON is a more complex FTTH topology. In PON, several houses or buildings are connected to a central network via the same optical fiber. Optical fibers are shared within the network using optical splitters, which divide the bandwidth between users. PON offers lower costs than P2P, but less optimal performance.
3. Gigabit Passive Optical Network (GPON)
GPON is a faster and more efficient type of PON. GPON uses Time Division Multiplexing (TDM) technology to divide bandwidth between users. This allows a single optical fiber to connect up to 64 homes or buildings, with data transfer speeds of up to 2.5 Gbps. GPON also offers lower costs than P2P.
4. FTTH Architecture (Fiber To The Home)
is a fiber optic network architecture that connects customers directly to the OLT (Optical Line Terminal) via a single optical fiber. This enables the transmission of data, voice, and video in high and stable speeds
In the FTTH architecture, a single optical fiber is connected from the OLT directly to the customer's home via an ONU (Optical Network Unit) located inside the customer's home. The ONU acts as an interface between customer equipment and the optical network. In some cases, the ONU can be integrated into the modem or router used by the customer.
The FTTH installation process begins with connecting optical fiber from the OLT to the ONU located in the customer's home. Next, fiber optic cable installation is carried out from the ONU to each customer equipment such as a modem, router or cable TV.
In FTTH architecture, the quality of fiber optic cables is critical to ensure fast and stable data transmission. Fiber optic cables must be installed carefully and protected from physical damage or inappropriate environments, such as improper cabling or placement in easily damaged areas.
FTTH is a very sophisticated network technology and requires significant investment in infrastructure. However, the speed, reliability and network capacity offered by FTTH makes it an increasingly popular choice for providing customers with fast and stable internet access.
Benefits of FTTH
FTTH offers a number of benefits that other broadband network technologies cannot provide. Some of the main benefits of FTTH are:
1. High Speed:
FTTH offers much faster data transfer speeds than other broadband network technologies, such as DSL and cable. This allows users to stream video, gaming and cloud-based applications more smoothly and stably.
2. Stability:
Optical fibers used in FTTH are not affected by electromagnetic interference, as are copper cables. This makes the internet connection more stable and reliable.
3. Higher Capacity:
FTTH has a higher capacity than other broadband network technologies. This allows users to access more data and online services.
High Security: FTTH uses optical fiber which is difficult for unauthorized parties to access. This makes FTTH more secure than other broadband network technologies.
DATA SERVER DEVICE ARRANGEMENT
DEVICE PERFORMANCE FUNCTION EXPLANATION
AND
NETWORK TOPOLOGY
1.1 DATA SERVER
Understanding Servers
A server or in Indonesian what is usually called a server is a computer system that has special services in the form of data storage. Data stored via servers is in the form of the Internet, information or various types of complex documents. This service is specifically intended for clients who need to provide Internet or information to their users or visitors.
Servers play an important role in providing faster access services for sending or receiving data and information available on the server. In its physical form, a server is in the form of a computer network and has a very large size with several supporting components for a large capacity processor and RAM.
The server consists of several devices, these devices are specifically designed to be able to always be on standby and have been specified in such a way as a central device to serve the needs of Internet data and information for several clients connected to the server.
1.2 DATA SERVER DEVICE ARRANGEMENT
The Data Network Server consists of several devices including:
a. Server PCs
b. Mikrotik Server
c. Switch HUB
d. UPS
e. Rack Mounting
A. PC SERVER
A PC Server is a computer device that functions as a terminal or network management center and internet data network system control center.
B. MICROTIC SERVER
A UPS is a device for storing power so that if the electricity suddenly goes out, the device with the UPS installed will still be on, but the device will only last for a short time.
A UPS is a device that is capable of turning on an electronic item, but this electronic device will not be on for a long time, a normal UPS of 600 watts is only able to turn on a computer with 400 watts of power for 17 minutes.
RACK MOUNTING
Server Rack is a rack specifically designed for placing servers or network equipment such as HUB - SWITCH and server computers.
U is a standard unit of measurement for designating the vertical of a space in use, or the height of shelves (iron frames designed to hold hardware) and cupboards (enclosures with one or more doors).
This unit of measurement refers to the space between the shelves above the shelf. 1U equals 1.75”. For example, designated as a 20U rack, it has 20 rack spaces for equipment and has 35 (20 x 1.75.) inches of vertical usable space. Shelf and cupboard space and the equipment that fits into them are all measured in U.
Rackmount is a thin, horizontally flat casing that can be arranged like a shelf in a special cupboard.
P2P/PTP NETWORK TOPOLOGY
Understanding Point to Point using Server and Mikrotik Server.
Understanding
Point to Point or what is often called PTP is a network that uses 2 devices connected wirelessly/without cables.
• Advantages of Point to Point networks
- Easy
- Not many cables/cables that are too long
Example of Point to Point Configuration using Mikrotik
As an Access Point
The first thing we have to do is enter the configuration via Winbox with the admin username and password left blank.
Go to the bridge menu and create a bridge1 interface as shown in the picture,
Next we will add a bridge port with ether1 and wlan1 interfaces,
Enter the wireless menu and click the check mark to activate WLAN1,
Enter wlan1, in the wireless menu use mode: bridge, band: 5Ghz-A, SSID: micro scanlist: 5100-5200, frequency mode: superchannel,
In the data rates menu, fill in according to your needs and make sure the supported rates A/G and basic rates A/G are selected the same,
In the WDS menu select WDS mode: dynamic WDS default: bridge1,
Go to the IP Address menu then add the IP for ether1
Configuration on Client
Just like in the configuration that we set as an access point, we use Winbox for the configuration.
Create a bridge port on the client,
Create a bridge port with ether1 and wlan1 interfaces so that it can connect,
After that we go to the wireless menu and activate wlan1 then enter wlan1, we only change mode: station wds and scanlist: 5100-5200,
Then we scan the list to connect to the access point that we set earlier, click start and if we have found it, click connect,
Then in the data rates menu we select default to follow the configuration that has been carried out by the access point
Enter the IP on Ether1 which is on the same network as the access point,
Let's try doing a bandwidth test via Winbox in the tools menu then bandwidth test, ping the opponent's IP using the TCP protocol,
INSTALLATION TOPOLOGY
INSTALLATION OF PTP WIRELESS NETWORK INFRASTRUCTURE USING LITE BEAM M5 ANTENNA
Tools & Materials
• Lite Beam M5 (Access Point)
• 75 meter UTP cable
• Crimping Tool (crimping pliers)
• RJ45 connector and tester cable
• PC SERVER device configuration
• Pipes
• Intermittent wire
• Pipe clamps (for nailing pipes to concrete)
• O ring clamps (for installing access point devices on pipes)
• Exhaust clamps (as a support for pipe wires and other equipment)
Create a transmitter and client proxy router configuration
Pulled the cable from the server room to the Antenna and installed the Omni antenna/transmitter
Installing a client antenna at home
