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Difference between revisions of "ENA2060 Amplifier - Mounting and Installation"

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This article describes the mounting and installation of the [[ENA2060-DC1_Amplifier|'''ENA2060''']] amplifier.
+
This article describes the mounting and installation of the '''[[ENA2060 Amplifier|ENA2060]]''' amplifier.
== Mounting the Amplifier ==
+
==Mounting the Amplifier==
 
The amplifier’s mechanical construction is rigid enough to be mounted using the six slots in the mounting flanges to secure it to the mounting surface in the rail carriage. <br>
 
The amplifier’s mechanical construction is rigid enough to be mounted using the six slots in the mounting flanges to secure it to the mounting surface in the rail carriage. <br>
 
For the rolling stock environment, it is considered good practice to mount support rails to better secure the amplifier.
 
For the rolling stock environment, it is considered good practice to mount support rails to better secure the amplifier.
* Use six '''5 mm diameter bolts (M5)''' that are suitable for the mounting surface
+
 
* Secure the amplifier to the mounting surface by '''fastening the bolts in the slots on the mounting flanges''' (see Figure 1: Mounting Measurements)
+
*Use six '''5 mm diameter bolts (M5)''' that are suitable for the mounting surface
* Mount the amplifier in a position that allows the '''free flow of air through its cooling fins'''
+
*Secure the amplifier to the mounting surface by '''fastening the bolts in the slots on the mounting flanges''' (see Figure 1: Mounting Measurements)
 +
*Mount the amplifier in a position that allows the '''free flow of air through its cooling fins'''
  
 
[[File:ENA2060 mounting.png|thumb|left|500px|Figure 1: Mounting Measurements]]
 
[[File:ENA2060 mounting.png|thumb|left|500px|Figure 1: Mounting Measurements]]
 
<br style="clear:both;" />
 
<br style="clear:both;" />
== Amplifier Connectors ==
+
==Amplifier Connectors==
 
[[File:ENA2060 connectors.png|thumb|left|500px|Connectors]]
 
[[File:ENA2060 connectors.png|thumb|left|500px|Connectors]]
 
<br style="clear:both;" />
 
<br style="clear:both;" />
=== Ethernet Ports 1 & 2 ===
+
===Ethernet Ports 1 & 2===
 
Ethernet Ports 1 & 2 are connected to the Train Communication Network (TCN) for exchanging data packets with the SIP server and other systems such as Network Monitoring System (NMS). <br>
 
Ethernet Ports 1 & 2 are connected to the Train Communication Network (TCN) for exchanging data packets with the SIP server and other systems such as Network Monitoring System (NMS). <br>
 
Port 1 is the main Ethernet connector while Port 2 is the backup Ethernet connector. The amplifier shall be connected to the network using a '''4-pin M12 D-Coded''' male connector.
 
Port 1 is the main Ethernet connector while Port 2 is the backup Ethernet connector. The amplifier shall be connected to the network using a '''4-pin M12 D-Coded''' male connector.
 
There are two LED indicators next to each Ethernet port:
 
There are two LED indicators next to each Ethernet port:
* '''Link: Green''' LED is lit when the amplifier is connected to the network
 
* '''Activity: Yellow''' LED is lit when data is being transmitted
 
  
=== Status Indicators ===
+
*'''Link: Green''' LED is lit when the amplifier is connected to the network
 +
*'''Activity: Yellow''' LED is lit when data is being transmitted
 +
 
 +
===Status Indicators===
 
The status indicators display the status of important parameters such as power supply and faults.
 
The status indicators display the status of important parameters such as power supply and faults.
* '''Power: Green''' LED is lit when the system has power and is hardware controlled.
 
* '''Fault: Yellow''' LED is lit when the device has detected any faults in hardware or on the loudspeaker line (software controlled). The LED is lit when the processor is not running correctly (hardware controlled).
 
* '''Operating: Green''' LED is in low frequency flashing pattern to indicate CPU is running and system is OK.
 
  
=== Activity Indicators ===
+
*'''Power: Green''' LED is lit when the system has power and is hardware controlled.
* '''Activity: Blue''' LEDs (one for each audio channel Ch1 and Ch2) that will be lit when audio is present on the audio outputs.
+
*'''Fault: Yellow''' LED is lit when the device has detected any faults in hardware or on the loudspeaker line (software controlled). The LED is lit when the processor is not running correctly (hardware controlled).
 +
*'''Operating: Green''' LED is in low frequency flashing pattern to indicate CPU is running and system is OK.
 +
 
 +
===Activity Indicators===
 +
 
 +
*'''Activity: Blue''' LEDs (one for each audio channel Ch1 and Ch2) that will be lit when audio is present on the audio outputs.
  
=== Multi-Connector ===
+
===Multi-Connector===
 
The Multi-Connector can be used for various functions as described below.
 
The Multi-Connector can be used for various functions as described below.
 
[[File:ENA2060 multi connector.png|thumb|left|300px|Multi-Connector]]
 
[[File:ENA2060 multi connector.png|thumb|left|300px|Multi-Connector]]
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<br style="clear:both;" />
 
<br style="clear:both;" />
 
{| border="1"
 
{| border="1"
| align="center" style="background:#ffd400;" width="50pt"| '''Pin''' || align="left" | '''Function''' || align="left"| '''Description'''
+
| style="background:#ffd400;" width="50pt" align="center" |'''Pin'''|| align="left" |'''Function'''|| align="left" |'''Description'''
 
|-
 
|-
| align="center" style="background:#ffd400;" width="50pt"| 1 || align="left" | UIC Pri +|| align="left"| UIC Priority Signal Input + 24VDC
+
| style="background:#ffd400;" width="50pt" align="center" |1|| align="left" |UIC Pri +|| align="left" |UIC Priority Signal Input (+24VDC)
 
|-
 
|-
| align="center" style="background:#ffd400;" width="50pt"| 2 || align="left" | UIC Pri - || align="left"| UIC Priority Signal Input 0VDC
+
| style="background:#ffd400;" width="50pt" align="center" |2|| align="left" |UIC Pri -|| align="left" |UIC Priority Signal Input (0VDC)
 
|-
 
|-
| align="center" style="background:#ffd400;" width="50pt"| 3 || align="left" | GPO1 + || align="left"| 24 VDC Signal Output (physical volume controller override)
+
| style="background:#ffd400;" width="50pt" align="center" |3|| align="left" |GPO1 +|| align="left" |24 VDC Signal Output (physical volume controller override)
 
|-
 
|-
| align="center" style="background:#ffd400;" width="50pt"| 4 || align="left" | GPO1 -|| align="left"| 0 VDC Signal Output
+
| style="background:#ffd400;" width="50pt" align="center" |4|| align="left" |GPO1 -|| align="left" |0 VDC Signal Output
 
|-
 
|-
| align="center" style="background:#ffd400;" width="50pt"| 5 || align="left" | UIC ON/OFF + || align="left"| UIC On/Off Signal Input (Currently not in use)
+
| style="background:#ffd400;" width="50pt" align="center" |5|| align="left" |UIC ON/OFF +|| align="left" |UIC On/Off Signal Input (Currently not in use)
 
|-
 
|-
| align="center" style="background:#ffd400;" width="50pt"| 6 || align="left" | UIC ON/OFF - || align="left"| UIC On/Off Signal Input (Currently not in use)
+
| style="background:#ffd400;" width="50pt" align="center" |6|| align="left" |UIC ON/OFF -|| align="left" |UIC On/Off Signal Input (Currently not in use)
 
|-
 
|-
| align="center" style="background:#ffd400;" width="50pt"| 7 || align="left" | GPI1 +|| align="left"| General Purpose Input
+
| style="background:#ffd400;" width="50pt" align="center" |7|| align="left" |GPI1 +|| align="left" |General Purpose Input
 
|-
 
|-
| align="center" style="background:#ffd400;" width="50pt"| 8 || align="left" | GPO2 + || align="left"| 24 VDC Signal Output (physical volume controller override)
+
| style="background:#ffd400;" width="50pt" align="center" |8|| align="left" |GPO2 +|| align="left" |24 VDC Signal Output (physical volume controller override)
 
|-
 
|-
| align="center" style="background:#ffd400;" width="50pt"| 9 || align="left" | GPO2 - || align="left"| 0 VDC Signal Output
+
| style="background:#ffd400;" width="50pt" align="center" |9|| align="left" |GPO2 -|| align="left" |0 VDC Signal Output
 
|-
 
|-
| align="center" style="background:#ffd400;" width="50pt"| 10 || align="left" | UIC IN + || align="left"| UIC Audio Signal Input
+
| style="background:#ffd400;" width="50pt" align="center" |10|| align="left" |UIC IN +|| align="left" |UIC Audio Signal Input
 
|-
 
|-
| align="center" style="background:#ffd400;" width="50pt"| 11 || align="left" | UIC IN - || align="left"| UIC Audio Signal Input
+
| style="background:#ffd400;" width="50pt" align="center" |11|| align="left" |UIC IN -|| align="left" |UIC Audio Signal Input
 
|-
 
|-
| align="center" style="background:#ffd400;" width="50pt"| 12 || align="left" | GPI2 + || align="left"| General Purpose Input (PTT key or audio triggered by other equipment)
+
| style="background:#ffd400;" width="50pt" align="center" |12|| align="left" |GPI2 +|| align="left" |General Purpose Input (PTT key or audio triggered by other equipment)
 
|-
 
|-
| align="center" style="background:#ffd400;" width="50pt"| 13 || align="left" | GPI1 - || align="left"| General Purpose Input (PTT key or audio triggered by other equipment)
+
| style="background:#ffd400;" width="50pt" align="center" |13|| align="left" |GPI1 -|| align="left" |General Purpose Input (PTT key or audio triggered by other equipment)
 
|-
 
|-
| align="center" style="background:#ffd400;" width="50pt"| 14 || align="left" | CH1 0dB + (OUT) || align="left"| Balanced Line Out for audio channel (inductive loop system)
+
| style="background:#ffd400;" width="50pt" align="center" |14|| align="left" |CH1 0dB + (OUT)|| align="left" |Balanced Line Out for audio channel (inductive loop system)
 
|-
 
|-
| align="center" style="background:#ffd400;" width="50pt"| 15 || align="left" | CH1 0dB – (OUT) || align="left"| Balanced Line Out for audio channel (inductive loop system)
+
| style="background:#ffd400;" width="50pt" align="center" |15|| align="left" |CH1 0dB – (OUT)|| align="left" |Balanced Line Out for audio channel (inductive loop system)
 
|-
 
|-
| align="center" style="background:#ffd400;" width="50pt"| 16 || align="left" | LINE IN + || align="left"| Audio Input, Line Input (local audio source)
+
| style="background:#ffd400;" width="50pt" align="center" |16|| align="left" |LINE IN +|| align="left" |Audio Input, Line Input (local audio source)
 
|-
 
|-
| align="center" style="background:#ffd400;" width="50pt"| 17 || align="left" |LINE IN - || align="left"| Audio Input, Line Input (local audio source)
+
| style="background:#ffd400;" width="50pt" align="center" |17|| align="left" |LINE IN -|| align="left" |Audio Input, Line Input (local audio source)
 
|-
 
|-
| align="center" style="background:#ffd400;" width="50pt"| 18 || align="left" | GPI2 - || align="left"| General Purpose Input (PTT key or audio triggered by other equipment)
+
| style="background:#ffd400;" width="50pt" align="center" |18|| align="left" |GPI2 -|| align="left" |General Purpose Input (PTT key or audio triggered by other equipment)
 
|-
 
|-
| align="center" style="background:#ffd400;" width="50pt"| 19 || align="left" | CH2 0dB + (OUT) || align="left"| Balanced Line Out for audio channel (inductive loop system)
+
| style="background:#ffd400;" width="50pt" align="center" |19|| align="left" |CH2 0dB + (OUT)|| align="left" |Balanced Line Out for audio channel (inductive loop system)
 
|-
 
|-
| align="center" style="background:#ffd400;" width="50pt"| 20 || align="left" | CH2 0dB – (OUT) || align="left"| Balanced Line Out for audio channel (inductive loop system)
+
| style="background:#ffd400;" width="50pt" align="center" |20|| align="left" |CH2 0dB – (OUT)|| align="left" |Balanced Line Out for audio channel (inductive loop system)
 
|-
 
|-
| align="center" style="background:#ffd400;" width="50pt"| 21 || align="left" | MIC IN + || align="left"| Audio Input for Microphone (ambient noise sensing or local announcement)
+
| style="background:#ffd400;" width="50pt" align="center" |21|| align="left" |MIC IN +|| align="left" |Audio Input for Microphone (ambient noise sensing or local announcement)
 
|-
 
|-
| align="center" style="background:#ffd400;" width="50pt"| 22 || align="left" | MIC IN - || align="left"| Audio Input for Microphone (ambient noise sensing or local announcement)
+
| style="background:#ffd400;" width="50pt" align="center" |22|| align="left" |MIC IN -|| align="left" |Audio Input for Microphone (ambient noise sensing or local announcement)
 
|-
 
|-
| align="center" style="background:#ffd400;" width="50pt"| 23 || align="left" | MIC IN CHASSIS || align="left"|  
+
| style="background:#ffd400;" width="50pt" align="center" |23|| align="left" |MIC IN CHASSIS|| align="left" |
 
|-
 
|-
| align="center" style="background:#ffd400;" width="50pt"| 24 || align="left" | SPARE/TEST || align="left"|  
+
| style="background:#ffd400;" width="50pt" align="center" |24|| align="left" |SPARE/TEST|| align="left" |
 
|-
 
|-
 
|}
 
|}
  
=== Audio Line Connector ===
+
===Audio Line Connector===
 
The Audio Line / Speaker connector is a '''4-pin M12 A-Coded female''' connector that has two channels with 100-volt output per channel.
 
The Audio Line / Speaker connector is a '''4-pin M12 A-Coded female''' connector that has two channels with 100-volt output per channel.
Audio Outputs
+
 
* 2 x 60W, 100V Audio
+
Audio Outputs:
* Channel Outputs
+
 
* Monitoring Signals
+
*2 x 60W, 100V Audio
 +
*Channel Outputs
 +
*Monitoring Signals
 +
 
 
[[File:ENA2060 100v connector.png|thumb|left|250px|100V Audio line connector]]
 
[[File:ENA2060 100v connector.png|thumb|left|250px|100V Audio line connector]]
 
<br style="clear:both;" />
 
<br style="clear:both;" />
  
=== Grounding Stud ===
+
===Grounding Stud===
 
This is an '''M4x20 stud''' for fixing a tab to the chassis and grounding the amplifier.
 
This is an '''M4x20 stud''' for fixing a tab to the chassis and grounding the amplifier.
  
 
{{Note|If the amplifier isn’t connected to ground, it will not be able to detect ground faults or short-circuits to ground.}}  
 
{{Note|If the amplifier isn’t connected to ground, it will not be able to detect ground faults or short-circuits to ground.}}  
  
=== Power Connector ===
+
===Power Connector===
The power connector is a '''4-pin M12 A-Coded male''' plug connector for 110 VDC power supply. <br>
+
The power connector is a '''4-pin M12 A-Coded male''' plug connector for 110 VDC power supply and a '''4-pin M12 S-Coded male''' plug connector for 24-48 VDC power supply .<br>
 
The '''green LED''' indicator for Power will be lit when the amplifier is powered up.
 
The '''green LED''' indicator for Power will be lit when the amplifier is powered up.
  
 
[[File:ENA2060 110vdc connector.png|thumb|left|200px|110 VDC connector]]
 
[[File:ENA2060 110vdc connector.png|thumb|left|200px|110 VDC connector]]
<br style="clear:both;" />
+
[[File:ENA2060-DC2 Power Input.jpg|alt=24-48 VDC Connector|left|thumb|200x200px|24-48 VDC connector]]

Latest revision as of 00:57, 6 November 2020

SIP Icon 300px.png

This article describes the mounting and installation of the ENA2060 amplifier.

Mounting the Amplifier

The amplifier’s mechanical construction is rigid enough to be mounted using the six slots in the mounting flanges to secure it to the mounting surface in the rail carriage.
For the rolling stock environment, it is considered good practice to mount support rails to better secure the amplifier.

  • Use six 5 mm diameter bolts (M5) that are suitable for the mounting surface
  • Secure the amplifier to the mounting surface by fastening the bolts in the slots on the mounting flanges (see Figure 1: Mounting Measurements)
  • Mount the amplifier in a position that allows the free flow of air through its cooling fins
Figure 1: Mounting Measurements


Amplifier Connectors

Connectors


Ethernet Ports 1 & 2

Ethernet Ports 1 & 2 are connected to the Train Communication Network (TCN) for exchanging data packets with the SIP server and other systems such as Network Monitoring System (NMS).
Port 1 is the main Ethernet connector while Port 2 is the backup Ethernet connector. The amplifier shall be connected to the network using a 4-pin M12 D-Coded male connector. There are two LED indicators next to each Ethernet port:

  • Link: Green LED is lit when the amplifier is connected to the network
  • Activity: Yellow LED is lit when data is being transmitted

Status Indicators

The status indicators display the status of important parameters such as power supply and faults.

  • Power: Green LED is lit when the system has power and is hardware controlled.
  • Fault: Yellow LED is lit when the device has detected any faults in hardware or on the loudspeaker line (software controlled). The LED is lit when the processor is not running correctly (hardware controlled).
  • Operating: Green LED is in low frequency flashing pattern to indicate CPU is running and system is OK.

Activity Indicators

  • Activity: Blue LEDs (one for each audio channel Ch1 and Ch2) that will be lit when audio is present on the audio outputs.

Multi-Connector

The Multi-Connector can be used for various functions as described below.

Multi-Connector



Pin Function Description
1 UIC Pri + UIC Priority Signal Input (+24VDC)
2 UIC Pri - UIC Priority Signal Input (0VDC)
3 GPO1 + 24 VDC Signal Output (physical volume controller override)
4 GPO1 - 0 VDC Signal Output
5 UIC ON/OFF + UIC On/Off Signal Input (Currently not in use)
6 UIC ON/OFF - UIC On/Off Signal Input (Currently not in use)
7 GPI1 + General Purpose Input
8 GPO2 + 24 VDC Signal Output (physical volume controller override)
9 GPO2 - 0 VDC Signal Output
10 UIC IN + UIC Audio Signal Input
11 UIC IN - UIC Audio Signal Input
12 GPI2 + General Purpose Input (PTT key or audio triggered by other equipment)
13 GPI1 - General Purpose Input (PTT key or audio triggered by other equipment)
14 CH1 0dB + (OUT) Balanced Line Out for audio channel (inductive loop system)
15 CH1 0dB – (OUT) Balanced Line Out for audio channel (inductive loop system)
16 LINE IN + Audio Input, Line Input (local audio source)
17 LINE IN - Audio Input, Line Input (local audio source)
18 GPI2 - General Purpose Input (PTT key or audio triggered by other equipment)
19 CH2 0dB + (OUT) Balanced Line Out for audio channel (inductive loop system)
20 CH2 0dB – (OUT) Balanced Line Out for audio channel (inductive loop system)
21 MIC IN + Audio Input for Microphone (ambient noise sensing or local announcement)
22 MIC IN - Audio Input for Microphone (ambient noise sensing or local announcement)
23 MIC IN CHASSIS
24 SPARE/TEST

Audio Line Connector

The Audio Line / Speaker connector is a 4-pin M12 A-Coded female connector that has two channels with 100-volt output per channel.

Audio Outputs:

  • 2 x 60W, 100V Audio
  • Channel Outputs
  • Monitoring Signals
100V Audio line connector


Grounding Stud

This is an M4x20 stud for fixing a tab to the chassis and grounding the amplifier.

Note icon If the amplifier isn’t connected to ground, it will not be able to detect ground faults or short-circuits to ground.


Power Connector

The power connector is a 4-pin M12 A-Coded male plug connector for 110 VDC power supply and a 4-pin M12 S-Coded male plug connector for 24-48 VDC power supply .
The green LED indicator for Power will be lit when the amplifier is powered up.

110 VDC connector
24-48 VDC Connector
24-48 VDC connector