- Hosa Technology 2 MIDI to 2 MIDI (Dual) Cable – 9 ft
- Limited Lifetime Warranty
About the Hosa MID-203 Dual 5-pin DIN to Dual 5-pin DIN Dual MIDI Cable, 9.8 feet
Hosa MID-203 Dual 5-pin DIN to Dual 5-pin DIN Dual MIDI Cable, 9.8 feet
Send and receive MIDI information through one cable assembly with Hosa Technologies’ Dual-MIDI to Dual-MIDI 9.9-foot Cable.
With a dense spiral copper shield to block interference and
nickel-plated connector pins for precise data transfer, the Dual-MIDI to
Dual-MIDI 9.9-foot Cable is an inexpensive option for connecting your
MIDI-compliant devices.
- Musical Instrument Digital Interface (MIDI)
-
The MIDI protocol allows communication between a computer
and a digital synthesizer (keyboard, drum machine, etc.) by transmitting
how the notes are to be produced. For example, commands like note-on,
note-off, pitch-shift, and tempo create much smaller files and more
realistic music, relying on the synthesizer to create all audible
sounds.
- Dual-MIDI Connectors
-
This tandem MIDI cable allows sending and receiving MIDI
information through one cable assembly. Red and white color-coded
connectors differentiate between cables, making hookups easier.
- Discreet 5-Pin Connectors
-
Each of the five pins on the connectors of these MIDI cables
is wired to support all MIDI functions, including uploading and
downloading data and relaying SysEx information.
- Cost-Conscious Design
-
The injection-molded connector bodies with built-in strain
relief are rugged and affordable, and the stranded copper conductors are
surrounded by a dense copper shield to ensure interference-resistant
data transfer.
- Colors and Lengths
-
These cables are available in black, red, white, blue and
orange, allowing for more organization when using multiple devices. In
addition, Hosa makes their cables in a variety of lengths to suit
virtually any application.
Key Features & Specifications for the Hosa MID-203 Dual 5-pin DIN to Dual 5-pin DIN Dual MIDI Cable, 9.8 feet:
- Nickel-plated plugs for rugged durability and efficient signal transfer
- Oxygen-Free Copper (OFC) conductors for enhanced signal clarity
- OFC spiral shields for effective EMI and RFI rejection and flexibility