MXP Series Codecs
Contents
Physical interface guide
Introduction
Codec 6000 MXP
Codec 3000 MXP
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The Physical Interface Guide
MXP Series Codecs
D14790.01 MXP Series Codec Physical Interface Guide, May 2011.
© 2011 Cisco Systems, Inc. All rights reserved.
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MXP Series Codecs
Contents
Contents
Physical interface guide
Introduction
What’s in
this guide?
TA - ToC Hidden text
anchor
The top menu bar and the entries in the Table of
Contents are all hyperlinks, just click on them to
go to the topic.
We recommend you visit our web site regularly
for updated versions of the user documentation.
Go to: http://www.cisco.com/go/telepresence/
docs
Codec 6000 MXP
Codec 3000 MXP
Contact us
Table of Contents
Introduction
About this guide................................................................... 4
User documentation......................................................... 4
Contents of the 6000 MXP Codec Shipping Box................. 5
Contents of the 3000 MXP Codec Shipping Box................. 6
The physical interface of Codec 6000 MXP
Rear panel socket and interface groups.............................. 8
Codec 6000 MXP............................................................. 8
Audio Sockets...................................................................... 9
Audio Signal Levels in Vpp and dBu................................... 10
Video Sockets.....................................................................11
Net Interface Socket...........................................................12
Network Interface Sockets..................................................13
Camera Sockets..................................................................14
Data Ports.......................................................................... 15
Power Socket & On/Off Switch.......................................... 16
The physical interface of Codec 3000 MXP
Rear panel socket and interface groups............................ 18
Codec 3000 MXP........................................................... 18
Codec 3000 MXP Net..................................................... 18
Audio Sockets.................................................................... 19
Audio signal levels in Vpp and dBu.................................... 20
Video Sockets.................................................................... 21
Camera Socket.................................................................. 22
ISDN BRI sockets (not applicable to 3000 MXP Net)......... 23
Net socket (applies to 3000 MXP Net only)....................... 24
Network Interface Sockets................................................. 25
Power Socket & On/Off Switch.......................................... 26
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MXP Series Codecs
Contents
Physical interface guide
Introduction
Introduction
Codec 6000 MXP
Codec 3000 MXP
Contact us
Chapter 1
Introduction
D14790.01 MXP Series Codec Physical Interface Guide, May 2011.
© 2011 Cisco Systems, Inc. All rights reserved.
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MXP Series Codecs
Contents
Physical interface guide
Introduction
Introduction
About this guide
The purpose of this document is to describe the physical
interface for the Cisco TelePresence System Codec MXP
Series listed below.:
•
•
Cisco TelePresence System Codec 6000 MXP
Cisco TelePresence System Codec 3000 MXP
Codec 6000 MXP
Codec 3000 MXP
Contact us
User documentation
The user documentation for the Cisco TelePresence systems,
running the F-software, have several guides suitable to
various user groups.
•
•
•
•
•
•
•
•
Video conference room primer
•
•
Licensing information for products using F-software
Video conference room acoustics guidelines
Getting started guide for the MXP Series
User guide for the MXP Series
Administrator guide for the MXP Series
API reference guides for the MXP Series codecs
Physical interfaces guides for the MXP Series codecs
Regulatory compliance and safety information guides for
MXP Series
Video Switch user guide
Download the user documentation
Go to: http://www.cisco.com/go/telepresence/docs and
select your product to see the user documentation for your
product.
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Introduction
Codec 6000 MXP
Codec 3000 MXP
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Contents of the 6000 MXP Codec Shipping Box
CD with user documentation
Up to 4 mains
cables (depending
on region)
Remote control
Batteries for remote control
6 ISDN BRI cables
Rack mounting kit (II)
Rack mounting kit (I)
Codec 6000 MXP
Mains
extension
cable
1 ISDN PRI cable
DVI–VGA cable
1 LAN / Ethernet
cable
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Physical interface guide
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Introduction
Introduction
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Codec 3000 MXP
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Contents of the 3000 MXP Codec Shipping Box
CD with user documentation
Remote control
4 ISDN BRI cables
(not included with
the NET version)
Batteries for remote control
Up to 4 mains
cables (depending
on region)
Rack mounting kit (II)
Rack mounting kit (I)
Codec 3000 MXP
Power
supply
Split cable for
non-TANDBERG WAVE
II cameras
Video DVI–VGA cable
1 LAN / Ethernet
cable
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MXP Series Codecs
Contents
Physical interface guide
Introduction
Codec 6000 MXP
Codec 3000 MXP
Contact us
Chapter 2
The physical interface of
Codec 6000 MXP
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Contents
Physical interface guide
Introduction
Codec 6000 MXP
Codec 3000 MXP
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Rear panel socket and interface groups
Codec 6000 MXP
Network interface sockets
Audio sockets
Video sockets
Power socket
and On/Off switch
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Audio Sockets
Stereo Settings
Settings
Use Audio Input No.
4 to connect to an
external microphone
amplifier or to an
external mixer.
Note!
Audio
inputs
4–6 are
referred
to as Line
input 1–3
in the API.
Microphone Inputs
Nos. 1–3.
Three balanced
microphone inputs for
electret microphones
balanced, 24V
phantom powered via
XLR connectors.
The phantom
powering of XLR
socket No. 3 can be
switched off. The Mic.
input No. 3 will then
be a balanced line
level input.
Use Audio Input No. 5 to
connect to external playback
devices or to telephone add-on
hybrids. For systems configured
with stereo I/O, connect the
VCR/DVD left channel to this
input.
Use Audio Input No. 6 to
connect a VCR or DVD
player to the system. For
systems configured with
stereo I/O, connect the VCR/
DVD right channel to this
input.
Tip! Audio inputs Nos.
5 & 6 are not equipped
with acoustic echo
canceller. Connecting
microphones to these
inputs can therefore
not be recommended.
Tip! Unused, but
connected audio inputs
should be set to Off to
avoid unwanted audio/
noise.
Out 1
mode
Output Response
Stereo
I/O
mode
Stereo
speakers
This output should be connected
to the local loudspeaker system,
which may, or may not, include
the TANDBERG Digital Natural
Audio Module.
For systems configured with
stereo speakers and SPDIF†
active, the left and right channel
of the loudspeaker signal will
both be provided on this output.
For systems configured with
stereo speakers and SPDIF†
not active, the left channel of
the loudspeaker signal will be
present on this output. The right
loudspeaker channel will be
provided on Audio Output No. 2.
SPDIF (Sony/Philips Digital Interface) is
used by the Digital Natural Audio module.
†
D14790.01 MXP Series Codec Physical Interface Guide, May 2011.
© 2011 Cisco Systems, Inc. All rights reserved.
Use Audio Output No.
2 (the AUX output) to
provide a mixed signal
consisting of audio from
the local side (AUX input
not included) and audio
from the far end.
This output should be
used when connecting a
telephone add-on system.
For system configured with
stereo I/O and with SPDIF†
active on Audio Output No.
1, this output will provide
the VCR left channel stereo
information.
For systems configured
with stereo I/O, stereo
speakers and SPDIF† not
active, this output will
provide the right channel
of the loudspeaker signal
(the left channel will be
provided on the Audio
Output No. 1).
Use Audio Output No. 3
(the VCR output) to provide
a mixed signal consisting
of audio from the local side
(VCR input not included)
and audio from the far end.
This output should be used
when connecting a VCR to
the system.
For system configured with
stereo I/O and with SPDIF†
active on Audio Output No.
1, this output will provide
the VCR right channel
stereo information.
For systems configured
with stereo I/O, stereo
speakers and SPDIF† not
active, this output will
provide the mix of left and
right channel of the VCR
out signal.
Audio
Out 2
Audio
Out 3
Analogue
Off
Off
Loudspeaker mono
Aux
VCR
Analogue
Off
On
Loudspeaker L
Loudspeaker
R
VCR
Analogue
On
Off
Loudspeaker mono
VCR L
VCR R
Analogue
On
On
Loudspeaker L
Loudspeaker
R
VCR
SPDIF
Off
Off
Loudspeaker mono
Aux
VCR
SPDIF
Off
On
Loudspeaker L & R
Aux
VCR
SPDIF
On
Off
Loudspeaker mono
VCR L
VCR R
SPDIF
On
On
Loudspeaker L & R
VCR L
VCR R
Tip! Audio signal levels
expressed in volts
and dBu can be found
overleaf.
Use Audio Output No. 1 to
provide a mixed signal of audio
from far end and local external
devices connected to input 5 &
6, in addition to dial tones.
Audio Out 1
Hardware Information
Microphone(s)
Audio
Input(s)
Signal type
Balanced
Socket
XLR-F
RCA/phono
Input impedance
2400 W
(pin 2–3)
10 kW
83 mVpp
15.5 Vpp
Unbalanced
Output impedance
680 W
Max input level when set to min.
input level
Max output level when set to max.
output level
Max input level when set to max.
input level
15.5 Vpp
6.2 mVpp
1.2 Vpp
Max output level when set to min.
output level
1.2 Vpp
Gain range
22.5 dB (16 steps of 1.5 dB)
Phantom power
24 V ± 5 %
Phantom power resistor pin 2
1200 W
Phantom power resistor pin 3
1200 W
Max phantom power current
12 mA
XLR pin-out
External view of socket
2
Audio
Outputs
RCA pin-out
External view of socket
1
3
Signal
GND
Pin 1: Gnd
Pin 2: Hot
Pin 3: Cold/neutral
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Audio Signal Levels in Vpp and dBu
Microphone Input 3
Line level mode signal levels
Microphone Inputs 1, 2 & 3 Signal levels
Signal
levels
Input
menu
level
setting
[dB]
0.0
Clipping levels
Nominal
level
Signal
levels
Clipping levels
Audio Inputs 4, 5 & 6 Signal levels
Nominal
level
Signal
levels
Clipping levels
Audio Outputs 1, 2 & 3 Signal levels
Nominal
level
Signal
levels
Absolute max output
level
Nominal
level
[mVpp]
[dBu]
[dBu]
Input
menu
level
setting
[dB]
[Vpp]
[dBu]
[dBu]
Input
menu
level
setting
[dB]
[Vpp]
[dBu]
[dBu]
Input
menu
level
setting
[dB]
[Vpp]
[dBu]
[dBu]
83.0
–28.4
–46.4
0.0
15.5
17.0
–1.0
0.0
15.5
17.0
–1.0
0.0
1.2
–5.5
–23.5
1.5
69.8
–29.9
–47.9
1.5
13.0
15.5
–2.5
1.5
13.0
15.5
–2.5
1.5
1.4
–4.0
–22.0
3.0
58.8
–31.4
–49.4
3.0
11.0
14.0
–4.0
3.0
11.0
14.0
–4.0
3.0
1.6
–2.5
–20.5
4.5
49.4
–32.9
–50.9
4.5
9.2
12.5
–5.5
4.5
9.2
12.5
–5.5
4.5
1.9
–1.0
–19.0
6.0
41.6
–34.4
–52.4
6.0
7.8
11.0
–7.0
6.0
7.8
11.0
–7.0
6.0
2.3
0.5
–17.5
7.5
35.0
–35.9
–53.9
7.5
6.5
9.5
–8.5
7.5
6.5
9.5
–8.5
7.5
2.8
2.0
–16.0
9.0
29.4
–37.4
–55.4
9.0
5.5
8.0
–10.0
9.0
5.5
8.0
–10.0
9.0
3.3
3.5
–14.5
10.5
24.8
–38.9
–56.9
10.5
4.6
6.5
–11.5
10.5
4.6
6.5
–11.5
10.5
3.9
5.0
–13.0
12.0
20.8
–40.4
–58.4
12.0
3.9
5.0
–13.0
12.0
3.9
5.0
–13.0
12.0
4.6
6.5
–11.5
13.5
17.5
–41.9
–59.9
13.5
3.3
3.5
–14.5
13.5
3.3
3.5
–14.5
13.5
5.5
8.0
–10.0
–8.5
15.0
14.8
–43.4
–61.4
15.0
2.8
2.0
–16.0
15.0
2.8
2.0
–16.0
16.5
12.4
–44.9
–62.9
15.0
6.5
9.5
16.5
2.3
0.5
–17.5
16.5
2.3
0.5
–17.5
18.0
10.4
–46.4
–64.4
16.5
7.8
11.0
–7.0
18.0
2.0
–1.0
–19.0
18.0
2.0
-1.0
–19.0
19.5
8.8
–47.9
–65.9
18.0
9.2
12.5
–5.5
19.5
1.6
–2.5
–20.5
19.5
1.6
-2.5
–20.5
21.0
7.4
–49.4
–67.4
19.5
11.0
14.0
–4.0
21.0
1.4
–4.0
–22.0
21.0
1.4
-4.0
–22.0
22.5
6.2
–50.9
–68.9
21.0
13.0
15.5
–2.5
22.5
1.2
–5.5
–23.5
22.5
1.2
-5.5
–23.5
22.5
15.5
17.0
–1.0
This specification is always valid for mic 1 and
2, and for mic 3 if mic level setting is selected.
Audio inputs 4–6
This specification is valid for mic 3 if line level
setting is selected.
Default levels are denoted as follows:
–31.4
Note: Audio inputs 4–6 are referred to as
Line input 1–3 in the API.
This specification is always valid for output 2
and 3, and for output 1 at volume setting 15.
Tip: To convert dBu values to dBV,
subtract 2.2 dB from the dBu value.
Example: –10 dBu –12.2 dBV
Microphone
inputs 1–3
Note: The input clipping levels and the
absolute max output levels all assume
sinusoidal signals for the dBu values.
Audio outputs 1–3
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Video Sockets
The system will
automatically
adapt to a PAL or
NTSC input.
Single
S-video input Mini-DIN sockets
Composite video input RCA sockets
PC DVI-I input sockets
Main camera
Doc. camera
(Digital Video Interface,
Integrated digital
and analogue)
Aux. camera
Single
Dual
Pin
1
If your DVI cable is not long enough,
use extension cables. Observe,
however, that the maximum cable
length should not exceed 5 m to
avoid quality loss.
Pin
9
Dual
T.M.D.S. Data
2+
10
3
T.M.D.S. Data
2/4 Shield
4
Assignment
Pin
Assignment
T.M.D.S. Data
1–
17
T.M.D.S. Data
1+
18
11
T.M.D.S. Data
1/3 Shield
19
T.M.D.S. Data
0/5 Shield
T.M.D.S. Data
4–
12
T.M.D.S. Data
3–
20
T.M.D.S. Data
5–
5
T.M.D.S. Data
4+
13
T.M.D.S. Data
3+
21
T.M.D.S. Data
5+
6
DDC Clock
14
+5 V power
22
T.M.D.S. Clock
Shield
7
DDC Data
15
GND
(return for +5 V,
HSync and
Vsync)
23
T.M.D.S. Clock+
2
DVI-D cables transmit digital
T.M.D.S. signals, DVI-A cables
transmit analogue VGA signals and
DVI-I cables can transmit either
digital or analogue signals.
Assignment
T.M.D.S. Data
2–
T.M.D.S. Data
0–
T.M.D.S. Data
0+
Formats supported on DVI-I out:
Levels
SVGA (800 × 600) 75 Hz
XGA (1024 × 768) 60 Hz
SXGA (1280 × 1024) 60 Hz
HD720p (1280 × 720) 50 Hz, 60 Hz
WXGA (1280×768) 60 Hz
Composite: 1 Vpp, 75 W
Formats supported on DVI-I in:
C (NTSC): 0.28 Vpp,
75 W
SVGA (800 × 600) 60 Hz, 72 Hz,
75 Hz, 85 Hz
XGA (1024 × 768) 60 Hz, 70 Hz, 75 Hz
SXGA (1280 × 1024) 60 Hz
HD720p (1280 × 720) 50 Hz, 60 Hz
S-Video (Y/C):
S-video Mini-DIN pin-out
External view of socket
Y: 1 Vpp, 75 W
4
3
2
1
C (PAL): 0.3 Vpp, 75 W
Analogue
Vertical Sync
16
Hot plug detect
24
T.M.D.S. Clock–
C1
Analogue Red
C2
Analogue
Green
C3
Analogue Blue
C4
Analogue
Horizontal Sync
C5
Analogue GND
(analogue
R, G & B return)
Pin 1: Ground (Luminance)
Pin 2: Ground (Chrominance)
Pin 3: Luminance (Y)
Pin 4: Chrominance (C)
Do as follows to get WXGA:
1 VGA Out Quality must be set to Auto.
2 VGA Monitor Format must be set to Wide.
8
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Note that the S-Video/Composite outputs on
the 6000 MXP are now by default turned off
from factory. Ref. xConfiguration Video
Outputs TV [1..2] Mode
DVI output sockets
DVI-I Pin-out
DVI-I pin-out
Note: TANDBERG supports DVI-D
Single-Link, DVI-A and DVI-I
Single-Link format cables.
Single
Dual
Composite video output RCA sockets
S-video output Mini-DIN sockets
VCR
3 PC Picture Format must be set to Normal.
RCA pin-out
External view of socket
If you are using TANDBERG supplied monitors this will give
WXGA out when displaying graphics.
If non-TANDBERG provided displays are used, you must in
addition execute the command:
Signal
GND
xConfiguration Video Outputs AllowWXGA: On
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Net Interface Socket
HD D-SUB 26 pin-out
External view of socket
1
9
18
26
10
19
Net interface socket. 1 × X.21 / V.35 / RS449
with 1 × RS366 Call Control up to 2 Mbps
RS366 DTE - DCE
Pin
V.35 DTE - DCE
Pin
1
Signal
Name
RS449 DTE - DCE
Description
FGND
Frame GND on
equipment
11
SD(A)
Send Data / Transmit
12
SD(B)
Send Data / Transmit
13
RD(A)
Receive Data
14
RD(B)
Receive Data
15
SCR(A)
Signal Clock Receive
16
SCR(B)
Signal Clock Receive
17
SCT(A)
Signal Clock Transmit
18
SCT(B)
Signal Clock Transmit
19
GND1
Signal GND
22
RLSD(CD)
Received Line Signal
Detector / Carrier
Detect
23
RLSD(GND)
Signal GND
24
RI
Ring Indicator
25
LOS
Loss of Signal (KG194)
26
DTR
Data Terminal Ready
1
Pin
Signal
Name
Description
1
FGND
Frame GND
11
SD(A)
Send Data
12
SD(B)
Send Data
13
RD(A)
Receive Data
14
RD(B)
Receive Data
15
RT(A)
Receive Timing
16
RT(B)
Send Timing
17
ST(A)
Send Timing
18
ST(B)
Send Timing
19
GND
GND
20
TR(A)
Terminal Ready
21
TR(B)
Terminal Ready
22
RR(A)
Carrier Detect / Receiver
Ready
23
RR(B)
Carrier Detect / Receiver
Ready
24
IC
Incoming Call
25
LOS
Loss of Signal (KG194)
1) This pin is connected to ground for correct
operations
D14790.01 MXP Series Codec Physical Interface Guide, May 2011.
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1
Signal
Name
Description
1
FGND
Frame GND
2
DPR
Digit Present
3
ACR
Abandon Call & Retry
4
CRQ
Call Request
5
PND
Present Next Digit
6
DLO
Data Line Occupied
7
NB1
Digit Bit 1
8
NB2
Digit Bit 2
9
NB4
Digit Bit 4
10
NB8
Digit Bit 8
Note the following:
V.10 (RS423). For balanced signals
a “0” = low voltage, is defined as
terminal A positive with respect to
terminal B. For unbalanced signals
a “0” = low voltage, is defined as
terminal positive with respect to
GND. Cable length for Leased Line
Control should not exceed 20 m.
RS 366. All balanced inputs and
outputs (A and B) use balanced line
signals according to V.11 (RS 422),
while single ended signals are in
accordance with V.10 (RS423). The
“0” = low voltage definitions are the
same as for V.10 above. Max cable
length, as for V.10 above.
Frame GND is connected to pin 1 on DTE
X.21 DTE - DCE
Pin
Signal
Name
Description
1
FGND
Frame GND
11
T(A)
Send Data / Transmit
12
T(B)
Send Data / Transmit
13
R(A)
Received Data /
Receive
14
R(B)
Received Data /
Receive
15
S(A)
Signal Element Timing
16
S(B)
Signal Element Timing
20
C(A)
Terminal Ready /
Control
21
C(B)
Terminal Ready /
Control
22
I(A)
Carrier Detect
23
I(B)
Carrier Detect
1) This pin is connected to ground for correct operations
12
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Network Interface Sockets
ISDN PRI (E1/T1) interface.
•
Tip! Wherever applicable, the use of Category 5
cabling or better is strongly recommended! For
HD camera applications, however, Category 7.5 is
required.
•
Tip! If you connect your Codec directly to a PC,
make sure you set up the system to use static TCP/
IP settings. There will be no DHCP server controlling
the little LAN created by the computer and the
Codec. When configuring a back-to-back connection
between the PC and the Codec, make sure both static
IP addresses exist on the same subnet.
E1/T1 Interface
PRI
Pin-Out
Crossover
PRI cable
1 × PRI (RJ-45 Jack) Primary Rate & Leased
Line E1/T1 (G.703) Interface up to 2 Mbps.
1 × PRI (RJ-45 Jack) Primary Rate (for future
use). Use any standard PRI cable to connect
the Codec to PRI.
ISDN BRI interface.
Ethernet LAN (RJ-45 Jack) interface
(10/100 Mb). Up to 4 or 6 Mbps, depending
on the bandwidth option installed. Use any
standard Ethernet cable to connect the Codec
to a LAN.
ISDN I.420 (RJ-45 Jack) Basic
Rate Interface S/T (2B + D),
128 kbps per ISDN I/F.
Use any standard ISDN BRI cable
to connect the Codec to BRI.
If no LAN is available and the Codec is
connected directly to a computer, use a
crossover cable.
S/T Interface
BRI
Pin-Out
Pin 1
RX+
4
Pin 3
TX+
Pin 2
RX–
5
Pin 4
RX+
Pin 4
TX+
1
Pin 5
RX–
Pin 5
TX–
2
Pin 6
TX–
D14790.01 MXP Series Codec Physical Interface Guide, May 2011.
© 2011 Cisco Systems, Inc. All rights reserved.
13
Ethernet cable
Ethernet cable
Wiring diagram of
a standard cable
Wiring diagram of
a crossover cable
1 ------- 1
1
1
2 ------- 2
2
2
3 ------- 3
3
3
6 ------- 6
6
6
RJ-45 Connector
pin-out
1
8
1
8
TOP
FRONT
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Camera Sockets
Tip! Wherever applicable, the use of Category
5 cabling or better is strongly recommended!
For HD camera applications, however,
Category 7.5 is required.
S-video input Mini-DIN sockets
Connect the main camera
to data port 2, for camera
control (pan, tilt, zoom).
Main camera
Pin No. 4 provides 12 Vdc / 1 A
to the Cisco main camera.
TANDBERG WAVE II Camera cable pin-out
S-video Mini-DIN pin-out
External view of socket
4
2
3
1
Pin 1: Ground (Luminance)
Pin 2: Ground (Chrominance)
Pin 3: Luminance (Y)
Pin 4: Chrominance (C)
SIGNAL
NAME
RJ-45
TANDBERG HD 6000 Camera cable pin-out
DSUB
SIGNAL
NAME
RJ-45
+12V DC
8
4
+12V DC
1
GND
7
5
GND
2
+12V DC
3
4
Rx
3
TXD
4
3
TX
6
RXD
5
2
LVDS+
4
GND
6
5
LVDS–
5
GND
2
5
GND
7
+12V DC
1
4
+12V DC
8
DSUB
Twisted pair
Twisted pair
Twisted pair
Twisted pair
9-pin D-sub pin-out
External view of socket
1
5
4
5
9
2
6
3
1
6
5
4
RJ-45 Connector
pin-out
1
8
1
8
TOP
Cable is Category 7.5/ Class F AWG24.
CAUTION! Extreme care should be taken if
you choose to make your own version of this
cable!
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14
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Data Ports
Data Ports
Data port 1
Pin
Signal
name
Data port 2
Direction
Signal
name
Direction
1
Carrier
detect, CD
From DCE
Carrier
detect, CD
From DCE
2
Receive data,
RXD
From DCE
Receive data,
RXD
From DCE
3
Transmit
data, TXD
To DCE
Transmit
data, TXD
To DCE
41
Data terminal
ready, DTR
From DCE
12 V / 1 A
5
Signal GND
6
Data set
ready, DSR
From DCE
Data set
ready, DSR
From DCE
7
Ready to
send, RTS
To DCE
Ready to
send, RTS
To DCE
8
Clear to
send, CTS
From DCE
Clear to
send, CTS
From DCE
9
Ring
indicator, RI
From DCE
Ring
indicator, RI
From DCE
USB
interface.
For future
use.
Signal GND
Note! The Cisco main camera is normally
connected to data port 2 and pin No. 4
provides 12 Vdc / 1 A to the main camera.
Otherwise the pin-outs are the same for the
two data ports.
9-pin D-sub pin-out
External view of socket
1
5
1) The Cisco main camera is normally connected to data port 2 and pin No.
4 provides 12 Vdc / 1 A to the main camera. Otherwise the pin-outs are the
same for the two data ports.
D14790.01 MXP Series Codec Physical Interface Guide, May 2011.
© 2011 Cisco Systems, Inc. All rights reserved.
Data port 1 (upper) and 2 (lower). The Data
ports are implemented as Digital Circuit
Terminating Equipment (DCE).
9
15
6
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Power Socket & On/Off Switch
Caution! This equipment must be earthed!
Power cord socket
Accepts 100–240 V
50–60 Hz
1 A max.
Power switch
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16
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Contents
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Introduction
Codec 6000 MXP
Codec 3000 MXP
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Chapter 3
The physical interface of
Codec 3000 MXP
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17
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Codec 3000 MXP
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Rear panel socket and interface groups
The Codec 3000 MXP comes in two flavours – with ISDN BRI sockets (upper) or with Net socket (lower).
Codec 3000 MXP
PC card
DC power socket
and On/Off switch
Network
interface
sockets
Camera
Video sockets
Audio sockets
Ethernet
ISDN BRI
Codec 3000 MXP Net
PC card
DC power socket
and On/Off switch
Network
interface
sockets
D14790.01 MXP Series Codec Physical Interface Guide, May 2011.
© 2011 Cisco Systems, Inc. All rights reserved.
Camera
Video sockets
Audio sockets
18
Ethernet
Net socket
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Audio Sockets
Tip! Audio signal levels
expressed in volts
and dBu can be found
overleaf.
Note! Audio inputs 3 &
4 are referred to as Line
input 1 & 2 in the API.
Tip! Unused, but
connected audio inputs
should be set to Off to
avoid unwanted audio/
noise.
Use Audio Input No. 3 to
connect to external playback
devices. This input can
also be configured as a
microphone input. It will then
function in lieu of the Mic.
2 input and be connected
to Mic. 2’s echo canceller
(which can be turned on/off).
Use Audio Input No. 4 to
connect a VCR or DVD
player to the system. For
systems configured with
stereo I/O, connect the
VCR/DVD right channel to
this input. This input should
be used when connecting a
telephone add-on system.
Tip! Audio Input No. 4 is not
equipped with an acoustic
echo canceller. Connecting
a microphone to this input
can therefore not be
recommended.
Stereo Settings
Settings
Out 1
mode
Output Response
Stereo
I/O mode
Off
Loudspeaker
mono
Analogue
Off
On
Loudspeaker L
Analogue
On
Off
Loudspeaker
mono
VCR
Analogue
On
On
Loudspeaker L
Loudspeaker
R
Off
Off
Loudspeaker
mono
VCR
Off
On
Loudspeaker
L & R
VCR
On
Off
Loudspeaker
mono
VCR
On
Loudspeaker
L & R
VCR
SPDIF
For systems configured with stereo
speakers and SPDIF† active, the left and
right channel of the loudspeaker signal
will both be provided on this output.
For systems configured with stereo
speakers and SPDIF† not active, the
left channel of the loudspeaker signal
will be present on this output. The right
loudspeaker channel will be provided
on Audio Output No. 2.
SPDIF
Use Audio Output No. 2 (the VCR output)
to provide a mixed signal consisting
of audio from the local side (VCR not
included) and audio from the far end.
Microphone Inputs
Nos. 1–2. Two balanced
microphone inputs for
electret microphones
balanced, 24V phantom
powered via XLR
connectors.
This output should be used when
connecting a telephone add-on system.
For system configured with stereo I/O
and with SPDIF† active on Audio Output
No. 1, this output will provide the VCR left
channel stereo information.
Loudspeaker
R
Hardware Information
Microphone(s)
Audio
Input(s)
Signal type
Balanced
Unbalanced
Socket
XLR-F
RCA/phono
Input impedance
2400 W
(pin 2–3)
10 kW
83 mVpp
15.5 Vpp
Max input level when set
to min. input level
For systems configured with stereo I/O,
stereo speakers and SPDIF† not active, this
output will provide the right channel of the
loudspeaker signal (the left channel will be
provided on the Audio Output No. 1).
XLR pin-out
External view of socket
External view of socket
1
3
Pin 1: Gnd
Pin 2: Hot
GND
Pin 3: Cold/neutral
SPDIF (Sony/Philips Digital Interface) is used by the
Digital Natural Audio module.
†
19
Max input level when set
to max. input level
Audio
Outputs
680 W
Max output level when
set to max. output level
2
D14790.01 MXP Series Codec Physical Interface Guide, May 2011.
© 2011 Cisco Systems, Inc. All rights reserved.
On
VCR
Output impedance
RCA pin-out
Signal
Audio
Out 2
Off
SPDIF
This output should be connected to the
local loudspeaker system, which may, or
may not, include the TANDBERG Digital
Natural Audio Module.
Audio Out 1
Analogue
SPDIF
Use Audio Output No. 1 to provide a
mixed signal of audio from far end and
local external devices connected to
input 3 & 4 in addition to dial tones.
Stereo
speakers
15.5 Vpp
6.2 mVpp
1.2 Vpp
Max output level when
set to min. output level
1.2 Vpp
Gain range
22.5 dB (16 steps of 1.5 dB)
Phantom power
24 V ± 5 %
Phantom power resistor
pin 2
1200 W
Phantom power resistor
pin 3
1200 W
Max phantom power
current
12 mA
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Audio signal levels in Vpp and dBu
Audio Inputs 3 & 4 Signal levels
Microphone Inputs 1 & 2 Signal levels
Signal
levels
Input
menu
level
setting
[dB]
0.0
1.5
3.0
4.5
6.0
7.5
9.0
10.5
12.0
13.5
15.0
16.5
18.0
19.5
21.0
22.5
Clipping levels
[mVpp]
83.0
69.8
58.8
49.4
41.6
35.0
29.4
24.8
20.8
17.5
14.8
12.4
10.4
8.8
7.4
6.2
[dBu]
–28.4
–29.9
–31.4
–32.9
–34.4
–35.9
–37.4
–38.9
–40.4
–41.9
–43.4
–44.9
–46.4
–47.9
–49.4
–50.9
Nominal
level
Signal
levels
[dBu]
Input
menu
level
setting
[dB]
–46.4
–47.9
–49.4
–50.9
–52.4
–53.9
–55.4
–56.9
–58.4
–59.9
–61.4
–62.9
–64.4
–65.9
–67.4
–68.9
Clipping levels
[Vpp]
[dBu]
Audio Outputs 1 & 2 Signal levels
Nominal
level
Signal
levels
[dBu]
Input
menu
level
setting
[dB]
Absolute max output
level
Nominal
level
Tip! To convert dBu values to dBV,
subtract 2.2 dB from the dBu value.
Example: –10 dBu => –12.2 dBV
[Vpp]
[dBu]
[dBu]
0.0
1.5
3.0
4.5
6.0
7.5
9.0
10.5
12.0
13.5
15.0
16.5
18.0
19.5
21.0
15.5
13.0
11.0
9.2
7.8
6.5
5.5
4.6
3.9
3.3
2.8
2.3
2.0
1.6
1.4
17.0
15.5
14.0
12.5
11.0
9.5
8.0
6.5
5.0
3.5
2.0
0.5
-1.0
-2.5
-4.0
–1.0
–2.5
–4.0
–5.5
–7.0
–8.5
–10.0
–11.5
–13.0
–14.5
–16.0
–17.5
–19.0
–20.5
–22.0
0.0
1.5
3.0
4.5
6.0
7.5
9.0
10.5
12.0
13.5
1.2
1.4
1.6
1.9
2.3
2.8
3.3
3.9
4.6
5.5
–5.5
–4.0
–2.5
–1.0
0.5
2.0
3.5
5.0
6.5
8.0
–23.5
–22.0
–20.5
–19.0
–17.5
–16.0
–14.5
–13.0
–11.5
–10.0
15.0
16.5
18.0
19.5
21.0
6.5
7.8
9.2
11.0
13.0
9.5
11.0
12.5
14.0
15.5
–8.5
–7.0
–5.5
–4.0
–2.5
22.5
1.2
-5.5
–23.5
22.5
15.5
17.0
–1.0
Audio inputs 3 & 4
Note! Audio inputs 3 & 4 are
referred to as Line input 1 & 2 in
the API.
Note! The input clipping levels and
the absolute max output levels all
assume sinusoidal signals for the
dBu values.
Default levels are denoted as follows:
–31.4
Audio outputs 1 & 2
Microphone inputs 1 & 2
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Video Sockets
Note! The
system will
automatically
adapt to a PAL
or NTSC input.
S-video input
Mini-DIN socket
Aux. camera
Composite video input RCA
sockets
Doc. camera
PC DVI-I input sockets
(Digital Video Interface,
Integrated digital
and analogue)
VCR
Single
S-video output
Mini-DIN socket
Single
Dual
Composite video output
RCA sockets
Pin
1
If your DVI cable is not long enough,
use extension cables. Observe,
however, that the maximum cable
length should not exceed 5 m to
avoid quality loss.
Assignment
Pin
T.M.D.S. Data
2–
9
Levels
Composite: 1 Vpp, 75 W
T.M.D.S. Data
0–
SVGA (800 × 600) 75 Hz
XGA (1024 × 768) 60 Hz
SXGA (1280 × 1024) 60 Hz
HD720p (1280 × 720) 50 Hz, 60 Hz
WXGA (1280×768) 60 Hz
T.M.D.S. Data
2+
10
3
T.M.D.S. Data
2/4 Shield
4
Assignment
Pin
T.M.D.S. Data
0+
Formats supported on DVI-I in:
Assignment
T.M.D.S. Data
1–
17
T.M.D.S. Data
1+
18
11
T.M.D.S. Data
1/3 Shield
19
T.M.D.S. Data
0/5 Shield
T.M.D.S. Data
4–
12
T.M.D.S. Data
3–
20
T.M.D.S. Data
5–
5
T.M.D.S. Data
4+
13
T.M.D.S. Data
3+
21
T.M.D.S. Data
5+
6
DDC Clock
14
+5 V power
22
T.M.D.S. Clock
Shield
7
DDC Data
15
GND
(return for +5 V,
HSync and
Vsync)
23
T.M.D.S. Clock+
2
DVI-D cables transmit digital
T.M.D.S. signals, DVI-A cables
transmit analogue VGA signals and
DVI-I cables can transmit either
digital or analogue signals.
Formats supported on DVI-I out:
DVI-I Pin-out
DVI-I pin-out
Note: TANDBERG supports DVI-D
Single-Link, DVI-A and DVI-I
Single-Link format cables.
DVI output
S-video Mini-DIN pin-out
External view of socket
Y: 1 Vpp, 75 W
4
3
2
1
C (PAL): 0.3 Vpp, 75 W
C (NTSC): 0.28 Vpp, 75 W
SVGA (800 × 600) 60 Hz, 72 Hz,
75 Hz, 85 Hz
XGA (1024 × 768) 60 Hz, 70 Hz, 75 Hz
SXGA (1280 × 1024) 60 Hz
HD720p (1280 × 720) 50 Hz, 60 Hz
Analogue
Vertical Sync
16
Hot plug detect
24
T.M.D.S. Clock–
C1
Analogue Red
C2
Analogue
Green
C3
Analogue Blue
C4
Analogue
Horizontal Sync
C5
Analogue GND
(analogue
R, G & B return)
Pin 1: Ground (Luminance)
Pin 2: Ground (Chrominance)
Pin 3: Luminance (Y)
Pin 4: Chrominance (C)
Do as follows to get WXGA:
1 VGA Out Quality must be set to Auto.
2 VGA Monitor Format must be set to Wide.
8
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S-Video (Y/C):
3 PC Picture Format must be set to Normal.
RCA pin-out
External view of socket
If you are using TANDBERG supplied monitors this will give
WXGA out when displaying graphics.
If non-TANDBERG provided displays are used, you must in
addition execute the command:
Signal
GND
xConfiguration Video Outputs AllowWXGA: On
21
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Camera Socket
Camera Connect the camera here. Use
a Cisco 3000 WAVE II Camera cable or
similar.
Tip! Wherever applicable, the use of Category
5 cabling or better is strongly recommended!
For HD camera applications, however,
Category 7.5 is required.
S-video Mini-DIN pin-out
External view of socket
4
3
2
1
To connect a non-Cisco camera use
the split cable supplied. This cable
has a female D-SUB and an S-video
connector in one end and a male
D-SUB connector in the other end.
Codec side
Split cable for
non-Cisco
cameras
Pin 1: Ground (Luminance)
Pin 2: Ground (Chrominance)
Pin 3: Luminance (Y)
Camera side
Pin 4: Chrominance (C)
9-pin D-sub pin-out
External view of socket
1
5
9
6
RJ-45 Connector
pin-out
1
8
TOP
FRONT
1
8
TANDBERG 3000 WAVE II Camera cable pin-out
SIGNAL
NAME
TANDBERG HD 3000 Camera cable pin-out
RJ-45
S-VIDEO
DSUB
+12V DC
8
—
4
+12V DC
1
GND
7
—
5
GND
2
+12V DC
3
—
4
Rx
3
TXD
4
—
3
TX
6
RXD
5
—
2
LVDS+
4
GND
6
—
5
LVDS–
5
GND
2
—
5
GND
7
+12V DC
1
—
4
+12V DC
8
Y-GND
—
1
8
C_GND
—
2
1
Y
—
3
9
C
—
4
6
NC
—
—
7
D14790.01 MXP Series Codec Physical Interface Guide, May 2011.
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SIGNAL
NAME
RJ-45
Non-TANDBERG Camera cable pin-out
DSUB
SIGNAL
NAME
DSUB
Camera
S-VIDEO
DSUB
Codec
4
+12V DC
1
—
4
1
GND
2
—
5
2
+12V DC
3
—
4
3
TXD
4
—
3
6
RXD
5
—
2
9
GND
6
—
5
5
GND
7
—
5
4
+12V DC
8
—
4
Y-GND
—
1
8
Cable is Category 7.5/ Class F AWG24.
C_GND
—
2
1
CAUTION! Extreme care should be taken if
you choose to make your own version of this
cable!
Y
—
3
9
C
—
4
6
NC
—
—
7
22
Twisted pair
Twisted pair
Twisted pair
Twisted pair
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ISDN BRI sockets (not applicable to 3000 MXP Net)
Tip! Wherever applicable, the use of Category
5 cabling or better is strongly recommended!
For HD camera applications, however,
Category 7.5 is required.
RJ-45 Connector
pin-out
S/T Interface
BRI
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Pin out
Pin 3
TX+
Pin 4
RX+
Pin 5
RX–
Pin 6
TX–
1
8
1
8
TOP
ISDN BRI interface. ISDN I.420
(RJ-45 Jack) Basic Rate Interface
S/T (2B + D), 128 kbps per ISDN
I/F. Use any standard BRI cable to
connect the Codec to BRI.
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Net socket (applies to 3000 MXP Net only)
V35 DTE to DCE
Pin
Signal name
Direction
1
FGND
Frame GND on equipment
11
SD(A)
↔
→
→
←
←
←
←
←
←
↔
←
12
SD(B)
13
RD(A)
14
RD(B)
15
SCR(A)
16
SCR(B)
Description
Send Data / Transmit
Send Data / Transmit
Receive Data
Receive Data
Signal Clock Receive
Signal Clock Receive
17
SCT(A)
18
SCT(B)
19
GND1
22
RLSD(CD)
23
RLSD(GND)1
←
Signal GND - This pin is connected to ground
for correct operations
←
→
→
Ring Indicator
24
RI
25
LOS
26
DTR
Signal Clock Transmit
Signal Clock Transmit
Signal GND
Received Line Signal Detector / Carrier Detect
Note the following:
V.10 (RS423): For balanced signals a 0 = low
voltage, is defined as terminal A positive with
respect to terminal B. For unbalanced signals a
0 = low voltage, is defined as terminal positive
with respect to GND. Cable length for Leased
Line Control should not exceed 20 m.
Net interface socket. 1 × X.21
/ V.35 / RS449 with 1 × RS366
Call Control up to 2 Mbps
RS 366: All balanced inputs and outputs (A
and B) use balanced line signals according to
V.11 (RS 422), while single ended signals are
in accordance with V.10 (RS423). The 0 = low
voltage definitions are the same as for V.10
above. Max cable length, as for V.10 above.
X.21: Signals are as for RS 366 above. Cable
length should not exceed 50 m.
Loss of Signal (KG194)
Data Terminal Ready
HD D-SUB 26 pin-out
RS449 DTE to DCE
Pin
Signal name
Direction
1
FGND
↔
Frame GND - Frame GND is connected to pin
1 on DTE
→
→
←
Send Data
←
←
←
←
←
↔
Receive Data
11
SD(A)
12
SD(B)
13
RD(A)
14
RD(B)
15
RT(A)
16
RT(B)
17
ST(A)
18
ST(B)
19
GND1
20
TR(A)
21
TR(B)
22
RR(A)
23
RR(B)
24
IC
25
LOS
→
→
←
←
←
→
Description
External view of socket
1
10
19
9
18
26
Send Data
Receive Data
X.21 DTE to DCE
Pin
Signal
name
Direction
Receive Timing
1
FGND
Send Timing
11
T(A)
Send Timing
12
T(B)
Send Timing
13
R(A)
GND - 1) This pin is connected to ground for
correct operations
14
R(B)
15
S(A)
16
S(B)
20
C(A)
21
C(B)
22
I(A)
23
I(B)
↔
→
→
←
←
←
←
→
→
←
←
Terminal Ready
Terminal Ready
Carrier Detect / Receiver Ready
Carrier Detect / Receiver Ready
Incoming Call
Loss of Signal (KG194)
D14790.01 MXP Series Codec Physical Interface Guide, May 2011.
© 2011 Cisco Systems, Inc. All rights reserved.
24
Description
RS366 DTE to DCE
Pin
Signal
name
Direction
Frame GND
1
FGND
Send Data / Transmit
2
DPR
Send Data / Transmit
3
ACR
Received Data / Receive
4
CRQ
Received Data / Receive
5
PND
Signal Element Timing
6
DLO
Signal Element Timing
7
NB1
Terminal Ready / Control
8
NB2
Terminal Ready / Control
9
NB4
Carrier Detect
10
NB8
↔
→
←
→
←
←
→
→
→
→
Description
Frame GND
Digit Present
Abandon Call & Retry
Call Request
Present Next Digit
Data Line Occupied
Digit Bit 1
Digit Bit 2
Digit Bit 4
Digit Bit 8
Carrier Detect
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MXP Series Codecs
Physical interface guide
Contents
Introduction
Codec 6000 MXP
Codec 3000 MXP
Network Interface Sockets
Tip! If you connect your Codec directly to a PC, make
sure you set up the system to use static TCP/IP settings.
There will be no DHCP server controlling the little
LAN created by the computer and the Codec. When
configuring a back-to-back connection between the
PC and the Codec, make sure both static IP addresses
exist on the same subnet.
Tip! Wherever applicable, the use of Category
5 cabling or better is strongly recommended!
For HD camera applications, however,
Category 7.5 is required.
Wireless LAN PC card may
be inserted here.
USB
interface.
For future
use.
Ethernet LAN (RJ-45 Jack) interface
(10/100 Mb). Up to 4 or 6 Mbps, depending
on the bandwidth option installed. Use any
standard Ethernet cable to connect the Codec
to a LAN.
The Data port is implemented
as a Digital Circuit Terminating
Equipment (DCE).
Data port
Pin
Signal name
Direction
Contact us
If no LAN is available and the Codec is
connected directly to a computer, use a
crossover cable.
9-pin D-sub pin-out
External view of socket
Ethernet cable
Ethernet cable
Wiring diagram of
a standard cable
Wiring diagram of
a crossover cable
1
Carrier detect, CD
From DCE
2
Receive data, RXD
From DCE
3
Transmit data, TXD
To DCE
1 ------- 1
1
1
4
Data terminal ready,
DTR
From DCE
2 ------- 2
2
2
3 ------- 3
3
3
6 ------- 6
6
6
5
9
5
Signal GND
6
Data set ready, DSR
From DCE
7
Ready to send, RTS
To DCE
8
Clear to send, CTS
From DCE
9
Ring indicator, RI
From DCE
D14790.01 MXP Series Codec Physical Interface Guide, May 2011.
© 2011 Cisco Systems, Inc. All rights reserved.
1
6
25
RJ-45 Connector
pin-out
1
8
1
8
TOP
FRONT
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MXP Series Codecs
Contents
Physical interface guide
Introduction
Codec 6000 MXP
Codec 3000 MXP
Contact us
Power Socket & On/Off Switch
Caution! This equipment must be earthed!
Power switch
Power cord socket.
Accepts 12 V DC / 4.3 A
D14790.01 MXP Series Codec Physical Interface Guide, May 2011.
© 2011 Cisco Systems, Inc. All rights reserved.
26
www.cisco.com
MXP Series Codecs
Contents
Physical interface guide
Introduction
Codec 6000 MXP
Codec 3000 MXP
Contact
Contact us
us
On our web site you will find an overview of the worldwide Cisco contacts.
Go to: http://www.cisco.com/web/siteassets/contacts
Corporate Headquarters
Cisco Systems, Inc.
170 West Tasman Dr.
San Jose, CA 95134 USA
Disclaimer
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RECOMMENDATIONS IN THIS MANUAL ARE BELIEVED TO BE ACCURATE BUT ARE PRESENTED WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED. USERS MUST TAKE FULL
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THE SOFTWARE LICENSE AND LIMITED WARRANTY FOR THE ACCOMPANYING PRODUCT ARE SET FORTH IN THE INFORMATION PACKET THAT SHIPPED WITH THE PRODUCT AND ARE
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Third party trademarks mentioned are the property of their respective owners. The use of the word partner does not imply a partnership relationship between Cisco and any other company. (1005R)
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D14790.01 MXP Series Codec Physical Interface Guide, May 2011.
© 2011 Cisco Systems, Inc. All rights reserved.
27
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