Installation Guide
MAX-CSD10 Video Decoder
MAX-CSD10 Video Decoder
MAX-CSD10 Specifications (Cont.)
This unit (FG2178-72) is engineered to provide real-time decoding of streamed digital
video content out as Composite and S-Video signals for distribution onto external
display devices such as a television, plasma screen, or projector, and video display-
capable devices such as AMX Modero Touch Panels.
Rear Panel Connectors • RS-232/422/485: Single 9-pin (DB9) port supports RS-232/422/
485 data output including:
(Cont.):
- 300, 600, 1,200, 2,400, 4,800, 9,600, 19,200, 38,400, and
115,200 Baud rates
- 7 or 8 Data bits
- 1 or 2 Stop bits
The rear Ethernet port supports IEEE 802.3af Power-over-Ethernet (POE) which
enables DC power to be supplied to this device over the unused pairs of wires on the
connected Ethernet cable. FIG. 1 shows the front and rear panel views.
- Even, Odd, Mark, Space, and None parity settings
- CTS and RTS handshaking
- XON/XOFF handshaking
• I/O: Two digital binary Input/Output ports for contact closure
(accepts a 4-pin 3.5mm mini-Phoenix (male) captive-wire
connector). Each input is capable of voltage sensing. Input
format is software selectable with interactive power sensing for
IR ports.
ID button
Status LED
LCD Display
IR Receiver
(front)
Operating/Storage
Environment:
• Operating Temperature: 0° to 45° C (32° to 113° F)
• Storage Temperature: -30º to 70º C (-22º to 158° F)
• Operating Relative Humidity: 5% to 85% (non-condensing)
• Operation intended for indoor use only.
Included Accessories:
• 2-pin 3.5 mm mini-Phoenix female PWR connector
• 4-pin 3.5 mm mini-Phoenix female I/O connector
• BNC to RCA Adapter
Composite
OUT
S-Video OUT
Analog stereo audio
(BNC)
Ethernet
• CC-NIRC IR Emitter cable
Input/Output
port
• MAX-CSD10 Quick Start Guide
Other AMX Equipment: • AC-RK Accessory Rack Kit (FG515)
• CSB Cable Support Bracket (FG517)
12 VDC
Power
• PMB Pole Mount Bracket (FG531)
• STS, Serial To Screw Terminal (FG959)
• Surface Mount Bracket Accessory (FG525)
(rear)
Wiring Installation Procedures
Ethernet Speed and
Link Activity LEDs
IR/Serial port
RS232/422/485
port
The wiring parameters for the PWR, Serial, and Ethernet ports are described in detail
within the following sections.
FIG. 1 MAX-CSD10 Video Decoder (front and rear views)
Wiring The Power Connector
Note: This unit can be mounted onto either a flat surface or into an equipment rack by
first removing the front screws and then attaching it to an AC-RK.
Use an external power supply (see Power Requirements) to provide power to the
MAX-CSD10 through the rear 2-pin 3.5 mm mini-Phoenix connector (FIG. 1). The
incoming PWR and GND cable from the power supply must be connected to the
corresponding locations within the PWR connector.
MAX-CSD10 (FG2178-72) Specifications
Dimensions (HWD):
Power Requirements:
1.58" x 5.54" x 6.95" (4.01 cm x 14.07 cm x 17.65 cm)
Power-Over-Ethernet (POE) Connection
Caution: If using Power-over-Ethernet as your source of power, you must FIRST
ground the unit to provide ESD protection. Install only a single wire into the (-) GND
side of the rear green 2-pin PWR connector, and then connect the terminal-end of this
same wire to a grounded source. It is recommended that the length of this wire
NOT exceed 6 ft. (1.83 m).
Any 802.3af-compliant POE switch (such as the NXA-ENET24 POE) can
automatically detect the 802.3af-compliant MAX device by its authenticated POE
signature and sense its required load before turning on DC power to the POE Ethernet
port.
• 500mA @ 12VDC (6W)
• Power Over Ethernet (POE) is available.
• Optional 12VDC power input overrides POE when used.
• Power requirements are usage dependant.
• This product is intended to be supplied by a Listed external
power supply rated from 10 to 18 VDC, minimum 500 mA or
equivalent.
Weight:
• 2.02 lbs (0.92 kg)
Enclosure:
Certifications:
Video Outputs:
• Metal with black matte finish
• FCC Part 15 Class B, CE, and UL listed
Note: Power-over-Ethernet connections work with all existing Category 3, 4, 5, 5e or 6
network cabling, including patch cables and patch-panels, outlets, and other
connecting hardware, without requiring modification.
• Composite Video (via BNC)
• S-Video (via standard female S-Video connector)
Reading the Ethernet LEDs
Audio Outputs:
• Analog Stereo (RCA connectors - Red/White)
The MAX-CSD10 uses a standard CAT5 Ethernet cable to provide 10/100 network
connectivity between the encoder and the network (FIG. 2).
Supported Resolutions: • NTSC (480i)
• PAL (576i)
Supported Video
Codecs:
• MPEG2 (2 Mbps - 6 Mbps)
• MPEG4 (500Kbps - 3 Mbps)
SPD - Speed LED lights (yellow) when
the connection speed is 100 Mbps
and turns Off when the speed
Supported Audio
Codecs:
• MPEG Audio Level 2 (MP2)
• MPEG Audio Level 3 (MP3)
• AAC
SPD
is 10 Mbps.
L/A
L/A - Link/Activity LED lights
ETHERNET 10/100
Front Panel
Components:
• ID Pushbutton: Used to both set the NetLinx ID (Device only)
assignment and reset the unit back to its factory defaults.
• Status LED: Green LED blinks to indicate both the system and
communication status with the target Master.
(green) when the Ethernet
cables are connected and terminated
correctly. Blinks when receiving
Ethernet data packets.
• LCD Display: Provides system information such as the
currently used IP Address.
• IR Receiver: Receives 38KHz AMX IR codes.
FIG. 2 Layout of Ethernet LEDs
Rear Panel
Connectors:
• COMPOSITE OUT: Composite Video Output (NTSC or PAL)
via a female BNC connector.
• 12VDC PWR: Single 2-pin 3.5mm mini-Phoenix (male) captive-
wire connector from an optional 12 VDC power supply
(overrides POE).
• S-VIDEO OUT: Mini-Din4 port for composite S-Video output.
• ETHERNET 10/100: Single RJ-45 port provides 10/100 Mbps
network communication and POE. LEDs show communication
activity, connections, speeds, and mode information (FIG. 2).
• AUDIO R/L: Two RCA connectors (Red and White) support
line-level stereo output for analog stereo signals.
• IR/Serial: Single 2-pin 3.5mm mini-Phoenix (male) captive-wire
connector is used for IR/Serial control output by generating IR
with the use of an IR emitter (while in IR mode). This port can
support high-frequency carriers of up to 1.142 MHz and can
also generate IR with no carrier frequency.
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