Icom ID-52 Repeater Experiments
Introduction
FM Repeaters - An Introduction
Repeater Book App
Repeater Book App
Local Repeaters
Repeater Book - Specific station
ICOM ID-52D Add Repeater - Instructions
- ICOM ID-52D Add Repeater
- Get into VFO Mode
- Use the top knob to change the freqency.
- To alternate between higher and lower frequencies click the VFO button
- Click on the Menu button
- Select Set using the middle button
- Select DUO/TONE
- Select Repeater Tone
- Use knob to change tone (e.g. 91.5)
- Then select TSQL Freq
- Click on VFO button to escape from Menu
- Click on QUICK button
- Select DUP - Duplex
- Select DUP-
- Select TONE
Add to Memory
- Hold down MR key
- Select WRITE To NEW CH new channel
- Find blank channel
- Push middle button
- Click YES to write to new channel.
Edit name of Memory Channel
- Change to Channel mode (Memory Mode) by clicking on MR button
- Find Memory
- Hold down MR to Edit
- Select Edit with the middle button
- Click QUICK button
- Select NAME
- Enter characters for name
- Press QUICK to exit
- Select <<Write>> to save changes.
Set Squelsh
- Push down SQL button.
- Adjust using Top knob
Escape from Menu
- Press VFO button.
Power setting
- Click on LO button (right indicator button)
- Adjust power level from Low to High.
Repeaters around Melbourne
VK3RHF - Melbourne North West, Mt Macedon
- Receive frequency 438.875
- Transmit frequency 431.875
- 70cm
- FM
- Offset frequency -7.0 MHz
- Repeater tone 88.5 Hz
- 53.3 km North West
- First contact 19 Oct 2023
- Tested - OK
VK3 RSE - Melbourne East, Glen Waverley
- Receive frequency 439.9000
- Offset frequency -5.0 MHz
- FM Carrier
- 26.1 South east
- Tested - OK
VK3 RCC - Melbourne, CBD East
- Receive frequency 438.025
- Offset frequency -5.0 MHz
- Repeater tone FM 91.5 Hz
- 16.7 km South West
VK3 RAJ - Ferntree Gully, Upwey
- 439.7500
- -5 MHz
- FM 91.5 Hz
- 34.5 km South East
VK3 RML - Ferntree Gully, Ferny Creek
- 146.7000 MHz
- -0.6 MHz
- FM 91.5 Hz
- 33.7 km South East
VK3 RMS - Sassafras, Olinda
- 438.2250 MHz
- -5.0 MHz
- FM 91.5 Hz
- 34.1 km South East
VK3 RMC - Dandenong Sth, Narre Warren
- 439.875 MHz
- -5.0 MHz
- FM 91.5 Hz
- 43.8 km South East
VK3 REC - Sassafras, Olinda
- 147.1750 MHz
- +0.6 MHz
- FM 91.5 Hz
- 34.2 km South East
VK3 RHF - Melbourne East, Olinda
- 438.750 MHz
- -5.0 MHz
- FM 88.5 Hz
- 34.2 km South East
VK3 RSP - Rosebud, Arthur's Seat
- 146.675 MHz
- -0.6 MHz
- FM 88.5 Hz
- 75.7 km South
VK3 RSU - Melbourne, Police Academy Site
- 438.100 MHZ
- -7.0 MHz
- FM 91.5 Hz
- 26.2 km South East
VK3 RMN - Kinglake Central, Kinglake
- 146.850 MHz
- -0.6 MHz
- FM 91.5 Hz
- 29.7 km North East
VK3 RPU - Rosebud, Arthur's Seat
- 439.850 MHz
- -5.0 MHz
- FM 91.5 Hz
- 75.9 km South
VK3 RMU - Healsville, Mt St Leonard
- 147.375 MHz
- +0.6 MHz
- FM 91.5 Hz
- 43.8 km East
VK3 RSB - Healsville, Mt St Leonard Tower
- 439.550 MHz
- -5.0 MHz
- FM 91.5 Hz
- 43.8 km East
VK3 RGL - Geelong North, Mt Anakie
- 147.000 MHz
- -0.6 MHz
- FM 91.5 Hz
- 72.3 km West
VK3 RMM - Mount Macedon, Mt Macedon
- 147.250 MHz
- +0.6 MHz
- FM 91.5 Hz
- 52.9 km North West
VK3 RBO - Bendigo, White Hills
- 438.025 MHz
- -5.0 Hz
- FM Carrier
- 124 km North West
Eltham, Kangaroo Ground
- VK3RMH
- 70cm
- 438.32500 Rx
- 433.32500 Tx
- -5.0 MHz
- FM
- 91.5 Hz
Melbourne, CBD East
- VK3RCC
- 438.02500
- -5.0 MHz
- FM
- 91.5 Hz
2 Metre Band - Simplex Mode
- 146.50 - National Voice Calling Frequency
- 146.425 - 146.600 - FM Simplex (25 kHz channels)
- 146.55 - one example of an FM Simplex frequency
Terminology
Half-Duplex
The term "half-duplex" refers to a communication mode or method in which data transmission can occur in both directions but not simultaneously. In a half-duplex communication system, devices or parties can transmit data, but only one at a time. While one device is transmitting, the other device(s) must listen and wait for their turn to send data. This is in contrast to full-duplex communication, where data can be transmitted simultaneously in both directions.
A common example of a half-duplex communication system is a walkie-talkie or a two-way radio. When one person is talking into the walkie-talkie, the other person must wait until the first person finishes speaking before responding. They cannot talk at the same time because the communication is half-duplex.
Half-duplex communication has its advantages in situations where only one device can transmit at a time, reducing the chances of data collisions and simplifying communication protocols. However, it can also result in increased latency and reduced overall data transfer rates compared to full-duplex communication, where devices can transmit and receive data simultaneously.
Co-linear
The term "co-linear" refers to objects or elements that are arranged in a straight line. In the context of antennas, "co-linear" typically refers to multiple radiating elements or conductors aligned in a straight line, usually along a common axis. These elements are designed to work together to achieve a specific antenna configuration or radiation pattern.
Co-linear antennas are popular in applications where multiple radiating elements are used in parallel to enhance performance, gain, or radiation characteristics. For example, in a co-linear dual-band antenna, two radiating elements are aligned in a straight line to support two different frequency bands, effectively extending the antenna's capabilities.
The "co-" prefix in "co-linear" signifies the idea of "together" or "in conjunction," indicating that the elements are aligned and work in harmony to achieve a common purpose. This term is widely used in the field of antenna design and telecommunications to describe antennas with multiple elements aligned along a common axis.