Analog Telephony (Part 1)

Site: QSC
Course: Q-SYS Quantum Level 1 Training (Online)
Book: Analog Telephony (Part 1)
Printed by: Guest user
Date: Saturday, 23 November 2024, 12:18 AM

Description

Video Transcript

00:07
Welcome to Analog telephony, as part of the QSC Quantum Training,
00:11
an advanced service and troubleshooting curriculum.
00:14
My name is Patrick Heyn and today we’re going to be talking about
00:17
the most technologically advanced element of the meeting room, just kidding we’re just talking about POTS... I'm sorry!
00:25
Obviously, analog telephony is a very old technology.
00:29
In fact, it was first demonstrated at the World's Fair in 1876 over a distance of about 10 miles.
00:36
In the beginning, there was only very basic signaling and audio, but the centuries progressed,
00:41
and we started superimposing additional features on those same two wires.
00:46
Analog telephony is often referred to as “POTS”, or Plain Old Telephone Service,
00:52
which is probably the saddest but most descriptive name you can think of.
00:57
Analog telephone service is hosted on what is called the ‘Central office’, or ‘CO’.
01:03
The central office provides the voltage, signal and switching to connect one phone to another during a call.
01:09
A phone is wired to a ‘wall jack’ (typically a female connector on a wall plate).
01:14
This is called the ‘Foreign Exchange Subscriber’ (or FXS) port.
01:20
The port on the phone (or Q-SYS in this case) is called the ‘Foreign Exchange Office’ port, or FXO.
01:28
Central offices connect phones to each other using a ‘Public Switched Telephone Network’, or PSTN.
01:36
The links from the CO to the PSTN are typically ‘trunks’,
01:41
this is where many calls are ‘bundled’ to the global telephony network.
01:45
These days, trunks are no longer bundles of analog cabling.
01:49
Instead, networks link all these in some sort of Voice over IP technology.
01:54
To put all these together, we have FXO devices (phones or Q-SYS)
01:58
connected to FXS ports provided by the Central Office.
02:02
We make a call through the CO, to the public switched telephony network,
02:06
which can theoretically connect us to any other phone in the world.
02:10
Many terms used in analog telephony today were named after their analog predecessors so many years ago.
02:17
For example, we often talk about a phone being on or off ‘hook’.
02:21
That’s because an old phone used to have a literal hook to hold the handset.
02:26
When it was off hook, it meant that you were speaking with somebody.
02:29
This term somehow survived today, even without the hook!
02:33
Sounds like laziness, I know.
02:35
There are also a number of terms used in analog telephony to describe
02:39
the signals required to receive or make calls.
02:42
The most basic signal is known as the ‘talk battery’.
02:46
This simple DC voltage provides a modest amount of power to the telephone electronics
02:51
and allows the central office to detect when the phone is on or off hook.
02:55
The CO detects the phone has gone off hook by detecting the current on the line.
03:00
This is known as the ‘loop current’. A phone line using this method is called a ‘loop start’ line.
03:06
It takes a relatively large AC voltage riding on top of the talk battery voltage
03:11
to activate the ring circuitry in a given phone.
03:14
This is called the ‘ring voltage’.
03:16
When I took my phone off hook, I should hear a ‘dial tone’.
03:20
That tells me that the central office knows that I’m off hook and is ready to accept my input.
03:26
When the phone is ringing, the call’s originator needs to know what’s happening.
03:30
The ‘ringback tone’ tells the original caller that the destination is ringing.
03:35
Call progress tones include dial tones,
03:38
ringback tone and any other tones used to help a caller understand what’s taking place.
03:44
The reorder tone is another good example of call progress tones.
03:49
A hook flash is a short burst on the hook switch that typically involves special features on a line,
03:55
like connecting a second call.
03:57
DTMF denotes the type of tones used for touchtone dialing, which replaced pulse dialing in the 1960s.
04:05
Using this model, each key on the telephone dial pad plays two tones simultaneously.
04:11
You know…these are the tones that you used to play ‘mary had a little lamb’ on your telephone!
04:16
The tones can be ‘heard’ by the receiving device and interpreted as needed.
04:20
If you have ever tried to route yourself through a technical support line,
04:24
chances are you've used an Interactive Voice Response, or IVR system,
04:29
which uses give us voice prompts and collects your input through a DTMF
04:33
or keyword to negotiate the menus and accomplish tasks.
04:37
Caller ID is modulated data technology that communicates the callers information.
04:42
A Private Branch Exchange (or PBX) is a localized phone system that can be placed in an office building
04:49
or structure to handle local extensions.
04:52
Many of these systems make use of multi-pair cabling or proprietary features,
04:57
so you should be careful when these come up in integration with Q-SYS POTS.
05:01
External calls are made through a PBX by way of an analog or digital trunk.
05:07
Many PBX systems make use of Ground Start lines rather than loop start lines.
05:12
This means one side of the line is temporarily grounded to signal the off condition rather than the current loop.
05:19
An analog telephone adapter (or ATA) is a piece of hardware
05:24
that converts a VoIP subscriber line to analog telephony.
05:28
This may be used in situations where Q-SYS softphones can't subscribe directly to an on-premise VoIP system.
05:35
Let’s have a more detailed look at an FXO device.
05:38
You can see the ‘tip’ and ‘ring’ ; literally just two wires that go back to the service provider.
05:43
Inside the FXO device, you can see the following:
05:47
This is a ring detector or a simple ring circuit. The AV ring voltage will excite this circuit if somebody is calling
05:55
There's the hook switch. When the hook switch is closed, it connects another component: the current loop.
06:01
To the right of these components, you can see other important parts.
06:04
There’s an audio ‘hybrid’, which is the system of transformers
06:08
used to add or remove audio signal from the line.
06:11
And finally, there’s the DTMF generator that allows for user input.
06:16
Let’s take a closer look inside the central office circuitry.
06:19
The talk battery is a -48VDC power supply. Note that telephony devices are generally NOT polarity sensitive.
06:27
It will still work if the tip/ring pair is reversed.
06:31
The hook (or current) detector signals the ‘smart’ part of the CO that the subscriber has gone off hook.
06:37
Like the telephone, the CO has an audio hybrid for each subscriber.
06:41
Then there’s a LOT of switching and control circuits to make the right thing happen at the right time.
06:47
Let’s image that I want to call the phone on the right. I pick up my phone and dial the appropriate number.
06:53
The CO understands this and connects the AC ring voltage to the subscriber line to the destination.
07:00
The DC battery is never disconnected though, the ring voltage simply rides on top.
07:05
In the US standard ring voltage is 90VAC at 20Hz. This is going to vary from country to country, as does the ring cadence.
07:14
The ‘cadence’ defines how long the bursts of ring voltage occurs and how often.
07:20
In this case, the central office would also send me a ringback tone so I know my destination is ringing.
07:26
When someone answers the phone, the hook switch closes, and causes current on the line.
07:32
When the central office detects that current,
07:34
it knows that the call has been answered and can stop ringing the circuit.
07:38
The typical loop current is between 25 and 75 milliamps.
07:43
Now that sounds like something you probably want to write down… like … for a quiz …
07:49
that might be happening later. Write it down. "Between 25 and 75 milliamps."
07:54
If the circuit was not ringing and somebody picked up the receiver to make a call,
07:58
the CO would detect the loop current and send a dialtone.
08:02
Loop current would be the same in both cases.
08:04
Alright, that’s a good place to stop! We’ll get into how this gets set up in Q-SYS when we get back.