[PC1]---Copper---[Switch A]---Fiber---[Switch B (acting as media converter)]---Copper---[Router]
Or simpler for basic testing:
A is a simple Layer 1 (Physical layer) device. It does not read IP addresses, MAC addresses, or make routing decisions. Its job is straightforward: media converter in cisco packet tracer link
If you search the Packet Tracer component menus for a dedicated media converter, you will not find one. Hardware media converters are typically unmanaged layer 1 (Physical Layer) devices.
The short answer is that Cisco Packet Tracer, in its standard device set, does not have a dedicated, standalone "Media Converter" icon that you can simply drag and drop into your topology. The simulation environment is designed to be high-fidelity, but its library focuses on specific routers, switches, hubs, and end devices. A standalone media converter is typically not part of this device palette. Hardware media converters are typically unmanaged layer 1
| Device Type | Specific Model | |-------------|----------------| | End Devices | PC (Generic) | | End Devices | PC (Generic) | | Network Cables | Copper Straight-Through | | Network Cables | Fiber (e.g., Single-mode or Multi-mode) | | | PT-Media-Converter (under Network Devices → WAN Emulation or search “Media Converter”) |
The most accurate method to create a mixed-media link in Packet Tracer is to use modular devices equipped with Small Form-factor Pluggable (SFP) transceivers. This approach mirrors real-world networking, where many switches and routers have SFP slots for flexibility. A standalone media converter is typically not part
Fiber optics resist electromagnetic interference (EMI) in industrial environments. Step-by-Step Guide to Linking Media Types in Packet Tracer
PC0 --(copper)--> Media Converter --(fiber)--> Switch (with fiber port) --(copper)--> PC1
Always click on the Router or Switch, go to the Physical Tab , and flip the power switch to OFF before altering hardware.
From PC-A, ping PC-B: