Home Recording For Dummies. Jeff Strong
Читать онлайн.| Название | Home Recording For Dummies |
|---|---|
| Автор произведения | Jeff Strong |
| Жанр | Музыка, балет |
| Серия | |
| Издательство | Музыка, балет |
| Год выпуска | 0 |
| isbn | 9781119711643 |
RCA
RCA plugs — named for good old RCA and also called phono plugs — are common on home stereos and on some semipro audio gear (see Figure 3-5). They function much like a TS plug but aren’t very common in professional audio equipment. However, you find them on some mixers so that you can connect a CD player, turntable, iPod, or other media device. They’re also used for digital S/PDIF signals (see the next section for more details on these babies).
FIGURE 3-5: An RCA plug is used mainly on consumer stereo and some semipro audio equipment.
Delving into Digital Connections
If you’re going to record using a digital recorder or mixer, you’re going to run into digital connectors (plugs and cables/cords). Digital audio equipment is a recent invention, and as such, no one standard has emerged. Because of this lack of standardization, a variety of digital connection methods are on the market, only a few (or one) of which may be on the equipment that you own or intend to purchase. Regardless, knowing about the most common types of connectors and their purposes can help you decide what equipment is right for you.
MIDI
MIDI, short for Musical Instrument Digital Interface, is a handy communication protocol that allows musical information to pass from one device to another. To allow the free passage of such information, MIDI jacks are located on a whole host of electronic instruments. Synthesizers, drum machines, sound modules, and even some guitars have MIDI jacks. And, to connect all these instruments, you need some MIDI cables. The MIDI connector contains five pins (male) that plug into the female MIDI jack (port) on the instrument or device (see Figure 3-6).
FIGURE 3-6: MIDI connectors have two male ends. The device contains the female jack.
AES/EBU
AES/EBU (Audio Engineering Society/European Broadcasting Union) cables are much like S/PDIF cables (described in the next section). The AES/EBU standards require these cables to transmit two channels of data at a time. They differ from S/PDIF cables in that they consist of XLR plugs and use balanced cables. (Figure 3-7 shows what the inputs look like on the recording equipment.) AES/EBU was developed to be used with professional audio components (hence, the use of balanced cords — the kinds used in professional-level equipment).
FIGURE 3-7: S/PDIF and AES/EBU connectors look the same as analog RCA (S/PDIF) and XLR (AES/EBU) but are marked as digital on the machine.
S/PDIF
S/PDIF (short for Sony/Phillips Digital Interface Format) cables consist of an unbalanced coaxial cable (one wire and a shield) and RCA plugs. (Figure 3-7 shows what the inputs look like on the machine.) These cables can also be made from fiber-optic cable and a Toslink connector. The S/PDIF format can transmit two channels of digital data at one time. S/PDIF protocols are similar to AES/EBU standards, except that S/PDIF was originally designed for the consumer market — which explains why unbalanced cords are used. In spite of being developed for the consumer market, S/PDIF connectors are found on a lot of pro recording gear along with (or instead of) AES/EBU.
ADAT Lightpipe
The ADAT (Alesis Digital Audio Tape) Lightpipe format allows eight tracks of digital audio to be sent at once. Developed by Alesis, ADAT Lightpipe (or simply Lightpipe for short) has become a standard among digital audio products. It consists of a fiber-optic cable that uses a special connector developed by Alesis.
TDIF
TDIF (Teac Digital Interface Format) is Teac’s return volley to the ADAT Lightpipe format. TDIF uses a standard computer cable with a 25-pin connector. Like the ADAT Lightpipe, TDIF cables can transmit eight channels of digital data at a time. TDIF isn’t nearly as common as ADAT Lightpipe because Alesis made its Lightpipe technology available to other companies to use for free. Alesis encouraged these companies to adopt it as a “standard” because the Alesis ADAT recorders were so common.
USB
USB, which stands for Universal Serial Bus, is a common component in nearly all modern computers. In fact, your computer probably has more than one USB port. USB connectors are directional and contain two end types (see Figure 3-8 for an example):
A Connector: This is used for a receiving device such as your PC or USB hub.
B Connector: This is used for a sending device, such as your USB audio interface or printer.
FIGURE 3-8: USB uses two types of connectors: the “A” connector (left) and the “B” connector (right).
USB connectors come in three sizes:
Standard: This size is used for computers and peripheral equipment, such as printers.
Mini: This size is generally used for larger mobile or portable devices.
Micro: This size is used for phones and thinner mobile devices.
Aside from having two different types of jacks and plugs, USB also has different standards. These are the ones that matter for audio recording (see Chapter 2 for USB interface options):
USB 1.1: This standard (the original) can handle a data rate of up to 12 Mbps (megabits per second). You’ll still find some USB 1.1 audio interfaces on the used market, but I recommend skipping them because you’ll be disappointed in their performance.
USB 2.0: Also called High-Speed USB, this standard can handle 40 times the data flow of the earlier standard — 480 Mbps. This is the most common connection for audio interfaces and can meet most home recordists’ requirements.
USB 3.x: This is also referred to as SuperSpeed or SuperSpeed+ USB. This connection transfers data ten times faster than USB 2.0 and will allow you to record a full symphony without a problem (you would need an