ISDN Introduction

The Basics

ISDN, and its predecessor Switched56, are technologies for sending high-quality audio on dial-up telephone lines. This is not to say that any old phone line can be used for the purpose, it requires a specially configured telephone line as well as a small pile of equipment at each end.

The big advantages are immediate availability, bi-directional capability and low cost. The technology now exists for dial-up stereo remotes.

ISDN has become popular, too, with the Internet crowd, for connecting to Internet Service Providers to send data to and from the Internet.

If you think of an ISDN circuit as simply three pipelines: two "pipes" to carry data and one "pipe" to provide data coordination for the other two.

The Equipment

You'll need some source of audio, at the very least a microphone and probably a tape recorder of some description. Then you need to be able to control the level, lets add a mixer or Loudmouth.
(The Loudmouth is an NPR-designed, Benchmark Systems-built audio switching device that routes analog audio into and from line-level devices. It also contains a mic preamp that can also be routed into connected devices, metering and switchable headphone monitoring).

Finally, you need to monitor the the outgoing and return audio (ISDN and Switched56 connections have the ability to send audio in both directions simultaneously), headphones are probably preferable since we have an open mic. The audio level to and from the ISDN equipment is a broadcast line level, +4dBu.

There are four components to an ISDN audio package. There is an Audio Encoder which converts audio to data. The Audio Decoder does exactly the opposite, converting data to audio. The Terminal Adapter which connects the data (encoder & decoder) with the 4-wire ISDN interface and allows you to control various aspects of the call (like where it goes). Finally there is the NT-1 which converts the 4-wire interface from the terminal adapter to the 2-wire standard used by the phone company.

You will probably never see four separate boxes. The various manufacturers have combined these components together in different combinations.

The Call

ISDN/Switched56 service can be broken into two parts; the Local Access line at each end and the Long Distance carrier. You will notice that this is very much like the standard telephone network because that is precisely the case. This is merely a telephone connection that is guaranteed a 64K bits/second or 56k bits/second path all the way.

Audio Quality

The resulting quality of the audio depends on four major factors:

1. Algorithm
2. Data Rate
3. Sample Rate
4. Mode

The Algorithm is merely an agreed upon way to utilize the bits. Since we have 64,000 bits per second, we could allocate a such-and-such number of bits to describe the audio waveforms, another number of bits allocated for error correction, and so on. Some algorithms are international standards, such as ISO MPEG Layer 2, or G.722,  that any manufacturer can use in their ISDN codecs. Other algorithms, such as the MUSICAM protocol, belongs to MUSICAM USA, and other manufacturers must buy a license from MUSICAM USA in order to support this algorithm. Competition to make the best sound quality while using the fewest bits is intense.

Data Rate is the bitrate of our ISDN or Switched56 line. 64K means 64,000 bits per second. When two 64K channels are used together as one, the resulting data rate is 128,000 bits per second. Adding channels together is called bonding, and is useful when you want to get the very best quality stereo sound possible.

Sample Rate is the number of times per second the audio waveform is analyzed, or sampled. Interestingly, higher sample rates do not always return better quality audio, unless the bit rate is increased also.

Mode refers to the audio configuration, whether stereo, monaural, joint stereo, or dual.

In general, here is how the systems line up from highest to lowest in Monaural:.

The big advantages are immediate availability, bi-directional capability and low cost. The technology now exists for dial-up stereo remotes.

MPEG Layer 2 and 3 both offer Stereo and Joint Stereo. The rule of thumb is that channel separation will be better with Stereo while frequency response will be better with Joint Stereo. Joint stereo should only be used at 128K.

Locations

There are several sources to find locations that have ISDN or Switched56:

• Within EUonline, you can browse our ISDN database, showing station/company names,city,state/country,bitrate and codec type.
  Our database has public radio stations and commercial operations as well.
  Please note that our database does not have contact telephone numbers, and that you need a JAVA-enabled browser to view the list.
  
  
• For U.S. domestic information, see Al Rieland's Switched Digital Audio Directory for Public Radio

• Jay Rose's Audiobahn, formerly known as ZephyrSpace.

• For International locations, see Ian Briton's Broadcast ISDN User Guide & Directory.

NPR Washington

NPR Audio Engineering maintains a variety of codecs to ensure compatibility with most other locations. There are, however, a number of coding schemes in use in Europe that we do not now, nor do we have plans to, support.

    MC ISDN-1   (PHON 11)   MUSICAM/G.722, 56/64KBit
    MC ISDN-2   (PHON 12)   MUSICAM/G.722, 56/64KBit
    MC ISDN-3   (PHON 13)   MUSICAM/G.722, 56/64KBit
    MC ISDN-4   (PHON 14)   MUSICAM/G.722, 56/64KBit
    MC MUSICAM  (PHON 15)   MUSICAM Stereo
    MC ZEPHYR   (PHON 16)   MPEG Level II/III/G.722
    MC RE-661   (PHON 17)   MPEG Level II
    RC ISDN-81  (PHON 81)   MUSICAM/G.722, 56/64KBit
    RC ISDN-82  (PHON 82)   MPEG Level II/III/G.722

The SPIDs for all NPR Washington ISDNs follow the patters 01XXXXXXX000 where XXXXXXX is the seven digit local ISDN number.

NPR's Satellite Technical Center has additional ISDN service.

Manufacturers

This is just a contact list of manufacturers. Detailed descriptions of their equipment is available on the respective manufacturers Web site, or from the manufacturers themselves.
This list is for your convenience, and does not constitute an endorsement by NPR for any particular product.

Adtran |  AETA | Comrex | Dolby | Motorola |
MUSICAM USA | R E America | Telos Systems | Transtream |

Adtran manufactures terminal adapters and NT1s. NPR has used the ISU-128, ISU-2X64 and ISU-512 Terminal Adapters.

        Sales                          205-971-8090
        Technical Support              800-726-8663
        Return Authorization           205-971-8722
        Potomac Digital, Mike Yankee   301-840-0999
        
        Adtran Customer Service
        901 Explorer Boulevard
        Huntsville, AL  35806

AETA manufactures audio codecs available in a broad range of configuration (built-in ISDN Terminal Adapter or not) and support G.722, as well as MPEG Level 1, 2 and 3. They also market a codec for use on the POTS network called the Scoop Reporter.

NPR has operated AETA codecs in the distant past for fixed transmission between London and Washington.

        US Distributor                 602-464-0085
        Fax                            602-964-0804
        e-mail                         cosma@gespac.com
        
        AETA US
        2055 East Calle Maderas
        Mesa, AZ 85213

Comrex manufactures a line of audio codecs as well as other broadcast equipment.

        email                          info@comrex.com

Dolby manufactures a line of wideband audio codecs.

        Chris Riley                    914-944-0548

Motorola manufactures just about everything, but of note here is their line of ISDN Terminal Adapters and Switched56 CSU/DSUs. NPR has no Motorola equipment in use.

        Sales                          301-881-9800

        Motorola Information Systems Group (ISG) Headquarters
        20 Cabot Boulevard
        Mansfield, MA  02048-1193

MUSICAM USA (formerly CCS, Corporate Computer Systems) manufactures a wide variety of audio codecs, the newest models (the Prima line) can include an internal ISDN terminal adapter. NPR has used the Micro 56, Micro 56+, Micro 66i, CDQ-1000, CDQ-2000 and Prima 110 codecs. Distribution has a number of Prima 220s.

        David Lin                      732-739-5600
        Werner Ludwig                  011-49-8-1155-160
        FAX                            732-739-1818
        
        MUSICAM USA
        670 North Beers Street, Bldg 4
        Holmdel, NJ  07733

RE America manufacturers a line of audio codecs. NPR has used the 660 and 661.

        Steve Watts                    216-871-7617
        FAX                            216-871-4303

        RE America
        31029 Center Ridge Road
        Westlake, OH  44145

Telos Systems manufacturers a line of audio codecs with the capability for internal terminal adapters. NPR has used their stereo codec with integral ISDN TA.

        Tech Support, Don Coulter      216-241-7225
        FAX                            216-241-4103
        
        Telos Systems
        2101 Superior Avenue
        Cleveland, OH  44114

Transtream is a manufacturer of Switched56 CSU/DSUs and ISDN Terminal Adapters. It appears that they are moving toward becoming an OEM supplier and thus moving away from completed products, but they are still worth checking out.

NPR has used Transtream Switched56 products in the past.

        Phone                          805-520-2490
        Fax                            805-520-2492
        E-mail                         sales@transtream.com
        
        Transtream, Inc.
        940 Enchanted Way, Suite 101
        Simi Valley, CA 93065

Related Readings

The  ISDN Info Center is a good reference for the How's and Why's of ISDN; they do not sell NPR market equipment and services, but exist to promote ISDN use.

The grand-daddy of all ISDN information is Dan Kegel's ISDN Page.

For an excellent overview from a telco, check out the PacBell ISDN User's Guide. This is a large document which takes some time to transfer, so be patient.  Bell Atlantic also has an offering.