ecler MIMO7272DN 72×72 Digital Matrix User Manual

MIMO7272DN
DIGITAL MATRIX
Digital Matrix with
DANTE™/AES67 Interface
USER MANUAL
50-0405-0107
MIMO7272DN

IMPORTANT REMARK

WARNING: SHOCK HAZARD – DO NOT OPEN

The lightning flash with arrowhead symbol, within an equilateral triangle, is intended to alert the user to the presence of uninsulated “dangerous voltage” within the product’s enclosure that may be of sufficient magnitude to constitute a risk of electric shock to persons.
The exclamation point within an equilateral triangle is intended to alert the user to the presence of important operating and maintenance (servicing) instructions in the literature accompanying the appliance.

WARNING (If applicable): The terminals marked with symbol of “ ” may be of sufficient magnitude to constitute a risk of electric shock. The external wiring connected to the terminals requires installation by an instructed person or the use of ready-made leads or cords.
WARNING: To prevent fire or shock hazard, do not expose this equipment to rain ormoisture.
WARNING: An apparatus with Class I construction shall be connected to a mainssocket-outlet with a protective earthing connection.

IMPORTANT SAFETY INSTRUCTIONS

1. Read these instructions.
2. Keep these instructions
3. Heed all warnings
4. Follow all instructions
5. Do not use this apparatus near water
6. Clean only with dry cloth
7. Do not block any ventilation openings Install in accordance with the manufacturer’s instructions
8. Do not install near any heat sources such as radiators, heat registers, stoves, or other apparatus (including amplifiers) that produce heat.
9. Do not defeat the safety purpose of the polarized or grounding type plug. A polarized plug has two blades with one wider than the other. A grounding type plug has two blades and a third grounding prong. The wide blade and the third prong are provided for your safety. If the provided plug does not fit into your outlet, consult an electrician for replacement of the obsolete outlet.
10. Protect the power cord from being walked on or pinched particularly at the plugs, convenience receptacles, and at the point where they exit from the apparatus.
11. Only use attachments/accessories specified by the manufacturer.
12. Unplug the apparatus during lightening sorts or when unused for long periods of time.
13. Refer all servicing to qualified personnel. Servicing is required when the apparatus has been damaged in any way, such as power supply cord or plug is damaged, liquid has been spilled or objects have fallen into the apparatus, the apparatus has been exposed to rain or moisture, does not operate normally, or has been dropped.
14. Disconnecting from mains: switching off the POWER switch all the functions and light indicators of the amplifier will be stopped, but fully disconnecting the device from mains is done unplugging the power cord from the mains input socket. For this reason, it always shall remain readily operable.
15. Equipment is connected to a socket-outlet with earthing connection by means of a power cord.
16. The marking information is located at the bottom of the apparatus.
17. The apparatus shall not be exposed to dripping or splashing and that no objects filled with liquids, such as vases, shall be placed on apparatus.
18. External wiring shall be connected by a skilled person.
19. This product is for indoor use only.

NOTE: This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense.
WARNING: This product must not be discarded, under any circumstance, as unsorted urban waste. Take it to the nearest electrical and electronic waste treatment centre.
CAUTION. Battery included on this product. Pay attention to the following safety statements:

1. Replacing the wrong type of battery will invalidate the safety protection
2. Explosion may be caused by putting the battery into the fire or heating furnace, or disposing of the battery by mechanical extrusion or cutting
3. Placing the battery in an extremely high temperature environment with flammable liquid or gas can cause the battery to explode or leak.
4. The extremely low air pressure of combustible liquid and gas placed on the battery may cause the battery to explode or leak.

NEEC AUDIO BARCELONA, S.L. accepts no liability for any damage that may be caused to people, animal or objects due to failure to comply with the warnings above.

IMPORTANT NOTE

Thank you for choosing our MIMO7272DN digital audio matrix with DANTE™/AES67 interface. It is VERY IMPORTANT to carefully read this manual and to fully understand its contents before any connection in order to maximize your use and get the best
performance from this equipment.
To ensure optimal operation of this device, we strongly recommend that its maintenance be carried out by our authorised Technical Services.
All ECLER products are covered by warranty, please refer to www.ecler.com or the warranty card included with this product for the period of validity and conditions.

INTRODUCTION

MIMO7272DN is a 72×72 digital audio matrix (72 inputs and 72 outputs) for installation, fully programmable through the EclerNet Manager application ().
() Refer to the EclerNet Manager Application manual for more information. The EclerNet Manager application is available for download at www.ecler.com.
It has 8 analog audio inputs and 8 analog audio outputs, 64 digital audio inputs DANTE™/AES67 and 64 digital audio outputs DANTE™/AES67, with a 64×64 simultaneous input / output channels native matrix.
MIMO7272DN is only available with standard firmware, and not with CONFERENCE firmware (intended for conferencing applications). For this type of CONFERENCE application please check the MIMO4040CDN model in our website.

4.1. Main features

• 8 balanced MIC/LINE analog audio inputs (42VDC phantom power independent per input channel). Euroblock connectors
• 8 balanced analog audio outputs Euroblock connectors
• 2 balanced MONITOR outputs Euroblock connectors rear panel + stereo jack front panel
• 64-channel digital audio inputs DANTE™/AES67
• 64-channel digital audio outputs DANTE™/AES67
• Allows the use of network redundancy for the transport of audio over IP (2 Ports DANTE™/AES67: primary & secondary)
• 8 control ports GPI (General Purpose Input)
• 8 control ports GPO (General Purpose Output)
• Ethernet control port, RJ45 connector (Compatible with EclerNet Manager, UCPs and TP-NET protocol)
• RS-232 control port, DB9 connector (for integration with third-party systems, via TP-NET protocol)
• Programming and remote management via Ethernet via EclerNet Manager application (either point-to-point, with direct CAT5/CAT6 cable, or from an Ethernet network connection)
• Remote control via custom control panels UCP (User Control Panels)
• iOS and Android remote control app available (Ecler UCP V2)
• Remote control from third party external devices. (Crestron, AMX, Extron, Medialon, etc., are registered brands from their respective owners). TP-NET protocol, through Ethernet o RS-232 ports
• Remote control via panels and digital consoles connected to the same Ethernet network (WPNET and PAGENETDN series)
• Embedded UCP panel server: EclerNet projects executed in the internal matrix engine, acting as UCP server and as hardware control included in the project.
• Configuration memory management (presets).
• Events scheduled on a calendar basis
• Broad DSP processing configurable. Examples:
  o Matrix router-mixer, from any input to any output (analog and/or digital DANTE™/AES67) with adjustable crosspoint level (independent mixes of different inputs for each output).
  o Treatment of channels in mono or stereo mode.
  o Level, mute, vumeters and phase adjustment in inputs and outputs.
  o Internal signal generator (sinusoidal signal, pink noise, white noise, polarit test).
  o Parametric EQ on inputs and outputs.
  o Delays on inputs and outputs.
  o Noise gate / compressor on input channels.
  o Compressor / limiter on outputs.
  o Priorities (ducking) between input channels.
  o Virtual and physical paging consoles

The programming of MIMO7272DN is done using the EclerNet Manager application (). Refer to the EclerNet Manager Application manual for more information.
() The EclerNet Manager application is available for download at www.ecler.com.

INSTALLATION

5.1. Location, assembly and ventilation
MIMO7272DN has been specially designed to be placed in 19″ rack structure, occupying one unit.
It is very important that, as a heat generating element, MIMO7272DN is not completely enclosed or exposed to extreme temperatures. Fresh air should be allowed to pass through the ventilation holes in the chassis, leaving at least one free rack unit between
each piece of equipment and those installed above and below it in the rack frame.
If the installation consists of several amplifiers in the same rack or is carried out inside cabinets closed by means of doors, it is highly recommendable to equip them with forced upward ventilation, installing fans at their lower and upper ends. This upward flow of ventilation will favour the dissipation of the heat generated in its interior.
5.2. Mains connection and power on
MIMO7272DN operates on alternating voltages from 90 to 264V and 47 to 63 Hz. This device is equipped with an oversized power supply capable of adapting without any type of adjustment to the mains voltage of any country in the world.
On the rear panel, next to the IEC power connector, there is an on/off switch for the unit.
On the front panel there is an LED indicator that illuminates when the unit is in operation.
Do not allow the network cable to run parallel to the shielded cables carrying the audio signal, as this may cause humming.

5.3. Balanced analog audio inputs
MIMO7272DN has on its rear panel 8 analog signal inputs (IN 1 to 8), balanced and supporting line or microphone levels. The selection of the input signal type and its management is done from the EclerNet Manager application. Refer to the EclerNet
Manager Application manual for more information.

The signal input connectors are Euroblock type. The assignment of the connection is as follows:
Live or direct signal > Terminal +
Cold or inverted signal > Terminal –
Ground > Terminal ⊥
For UNbalanced connections, short-circuit the terminal – to earth.
5.4. Balanced analog audio outputs

The rear panel of the MIMO7272DN has 8 analog signal outputs (OUT 1 to 8) and 2 additional “MONITOR” monitoring outputs, balanced and with line level.
The signal output connectors are Euroblock type. The assignment of the connection is as follows:
Live or direct signal > Terminal +
Cold or inverted signal > Terminal –
Ground > Terminal ⊥ For UNbalanced connections, leave the terminal – unconnected.

5.5. Digital audio inputs and outputs over IP DANTE™/AES67
(Ports for primary and secondary networks)
MIMO7272DN allows the reception of 64 channels of digital audio DANTE™/AES67 and the sending of 64 channels of digital audio DANTE™/AES67 through an Ethernet network compatible with the transport of digital audio over IP through the DANTE™/AES67 protocol.
The routing of the digital audio signals DANTE™/AES67 through the Ethernet network, as well as the network configuration of the ports DANTE™/AES67 (IP addresses, mask, etc.) of the MIMO7272DN, is managed by the software application Dante Controller. For more information, please refer to the developer’s documentation: https://www.audinate.com/products/software/dante- controller

MIMO7272DN features two ports with RJ45 interface in its rear panel that allow the sending and reception of digital audio DANTE™/AES67, labelled as primary (PRIMARY) and secondary (SECONDARY). MIMO7272DN can work with these ports in two possible modes:

• Redundant Mode: there are two simultaneous network connections (each with its own IP address, both different) so that the information Ethernet packets DANTE™/AES67 are transmitted via both connections. Each port (primary and secondary) must be connected to a different physical Ethernet local network, or to a different virtual local network (VLAN), correctly configured and isolated from each other. The digital audio DANTE™/AES67 is therefore sent and received using two distinct and independent paths, with no possible communication between the primary and secondary ports. In case one of them fails, MIMO7272DN will automatically switch to the other, recovering the audio transmission almost instantaneously. Obviously, to achieve total redundancy, all DANTE™/AES67 devices that are part of a system of this type must have primary and secondary DANTE™/AES67 ports, connected respectively to the same two independent networks as MIMO7272DN.

Note: in this mode, if (by mistake) the primary and secondary ports connect to the same Ethernet network, Dante Controller will no longer have access to the network configuration control and routing DANTE™/AES67 of the MIMO7272DN ports. This control is recovered when one of them is disconnected from the same network as the other.
Note: DANTE™/AES67 redundancy requires that the primary and secondary ports of all DANTE™/AES67 devices connect using the same network connection speed. For example, if the primary port connects to a network with a 1 Gbps link, the secondary port must also connect at 1 Gbps.

• Switched mode: in this mode, only a single network connection is actually enabled (and therefore only one IP address exists), with the primary and secondary ports behaving as ports of a network switch integrated within MIMO7272DN, to which devices forming part of the system’s DANTE™/AES67 network, or Ethernet switches forming part of that network’s infrastructure, can be directly connected.

Note: in this mode both ports primary and secondary, should never be connected simultaneously to network switches, as this would create a loop that would cause network conflicts and disruption of the digital audio DANTE™/AES67 traffic.

5.6. Programming and control Ethernet port
The RJ45 connector labelled ETHERNET allows the connection of the equipment to an Ethernet local network (LAN), being compatible with the following purposes:

• Management from the EclerNet Manager application, by direct connection (CAT5 cable or higher) of a computer with a MIMO7272DN unit or using an Ethernet network as a link between both. Refer to the EclerNet Manager Application manual for more
  information.

• Connection to third party control equipment. (Crestron, AMX, Extron, Medialon, etc. are registered brands from their respective owners). Protocol used: Ecler TP-NET. Refer to the TP-NET PROTOCOL chapter for more information.

• UCP: EclerNet project remote control service using customisable graphical control panels. MIMO7272DN can act as a server for these panels, included in an EclerNet project, and also be remotely controlled by UCP panel client devices (WPNETTOUCH, Android® or iOS® mobile devices, Windows® devices, etc.).

5.6.1 Factory Preset Network settings
The factory default network settings for EclerNet Manager compatible devices are as follows:

• IP: 192.168.0.100
• Mask: 255.255.255.0
• Gate: 192.168.0.1
• UDP Port: 2210

5.7. Control remote RS-232 port
The RS-232 port with DB9 connector built into the rear panel allows an external device to communicate with a MIMO7272DN unit via serial connection. This connection will use the syntax of the TP-NET protocol so that the external device can obtain the value of some of the parameters of the MIMO7272DN unit (by means of “GET” commands) and/or modify these values (“SET” commands). Refer to the TP-NET PROTOCOL chapter for more information.

The serial connection must comply with the following characteristics:

• Baud rate: 115200 (fixed, no auto negotiation)
• Data bits: 8
• Parity: None
• Stop bits: 1
• Flow control: None

5.8. Remote control GPI ports
The MIMO7272DN rear panel has 8 GPI inputs for direct voltage control, 0 to 10 VDC. Each of these inputs can be connected to an external physical device (a potentiometer, a contact closure, a variable 0-10V DC voltage, etc.) and associated with a MIMO7272DN function, for example:

• Remote control of an input channel volume, output or matrix crossover using a physical potentiometer or a remote control WPa series from Ecler
• Activation / deactivation of a MUTE or SOLO by means of a push-button or contact closure
• Retrieval of a preset by means of a pushbutton or contact closure

The GPI connectors are Euroblock type. The assignment of the connection is as follows

Positive, + 12 VDC > Terminal +
Variable voltage, 0-12 VDC > Terminal ↑
Ground > Terminal ⊥

Jumpers position: ALOG / LIN → LIN position
+12 / +10 → +12 position
WPaVOL connection to MIMO serial GPI ports

Jumpers position: ALOG / LIN → LIN position
+12 / +10 → +12 position
WPaVOL-SR connection to MIMO serial GPI ports
The connection cables can be up to 500 meters approximately, using a minimum crosssection of 0,5 mm2.
Consult your ECLER distributor or at www.ecler.com about the serial remote-control wall panels WPa series and other accessories available for connection to REMOTE / VCA ports.

5.9. Remote control GPO ports
MIMO7272DN has on its rear panel 8 relay outputs NO / NC (normally open / normally closed). Each of these outputs can have its status change associated with a trip by means of a specific function programmed through EclerNet Manager, such as a calendar  event or the pressing of a key available on a UCP control panel. In this way, it is possible to interact with external equipment, such as motors for projection screens or movable partition walls, lights, sirens, GPI inputs from other equipment, etc.

OBSERVATIONS

6.1. Ground loops
It must be ensured at all times that the signal sources that reach the matrix, as well as all the devices that are connected to its output, do not have the grounds interconnected, that is to say that the grounds never reach them by two or more different paths, since, in this way, buzzes could be produced that would even interfere with the quality of the sound reproduction.
The shields of the cables, if they are connected to a chassis, must never be connected to each other. This way we avoid the formation of ground loops.
6.2. Background noise
MIMO7272DN has been designed to obtain the lowest possible background noise.
Regardless of the electronic design, the background noise will depend directly on the correct use and installation of the unit.
It is not the same, for example, to have the GAIN control of a channel at 2 and the VOL of the output to which it is routed at maximum (case 1), to have a correct gain setting on the input signal and the VOL level of the output channels to which it is routed at an
intermediate position (case 2). In the first case, the signal that reaches the mix amplifier, which intrinsically has its own background noise level, is weak, so the signal-to-noise ratio is low (low signal). When the output amplifier raises indistinctly the whole set we
will have a very high background noise level at the output.
In the second case, when the input gain is correctly adjusted, the signal received by the matrix is large and therefore with a large signal / noise ratio as well, so when this signal reaches the output channels and is amplified, it will have a better ratio than in the previous case.

PACKAGE CONTENTS

• MIMO7272DN
• AC power cables
• Euroblock aerial connectors for analog inputs and outputs and GPIO ports
• Quick User Guide and Warranty Card

FUNCTION LIST

1. Stereo jack headphone connection
2. Headphone volume control, VOL
3. Analog Input Signal LEDs, INPUTS
4. Analog output signal LEDs, OUTPUTS
5. Data traffic indicator light, DATA
6. Digital audio traffic light DANTE
7. Start-up indicator light, POWER
8. IEC type connector for external AC power cable
9. Fuse holder
10. Unit Power On Switch
11. Euroblock DC voltage control terminals, GPI
12. Euroblock relay output terminals, GPO
13. Ports DANTE primary and secondary, RJ-45 connector
14. Ethernet control port, RJ-45 connector
15. DB9 connector for remote control via TP-NET protocol, RS-232
16. Euroblock terminals analog audio output, MONITOR
17. Euroblock terminals analog audio output, OUT
18. Euroblock terminals analog audio input, IN

FUNCTION DIAGRAM

BLOCKS DIAGRAM

TECHNICAL FEATURES

MIMO7272DN

DSP
CPU Sampling rate
Latency analog IN to analog OUT| Quad core 64bits 1GHz
48 kHz
<4.3 ms.
Converters
Resolution
Dynamic range| 24 bit
AD:110dB, DA: 115dB
Analogue|
8 Input / Output
2 monitor output
Headphones connector
Analogue input headroom
Max. output level
Input sensitivity @0dBV out
Input impedance
Phantom power
Headphones
Frequency response (-3dB)
Flatness
THD+Noise @ 1kHz, 0dBV input (line)
THD+Noise @ 1kHz, -40dBV input (mic.) Output Noise floor FFT (20Hz – 20kHz)
Interchannel crosstalk (20Hz – 20kHz)
Channel Leakage (20Hz – 20kHz)
CMRR 20Hz- 20kHz| Terminal block (Symmetrical)
Terminal block (Symmetrical)
Jack ¼
+27dBV = +30dBu
+18dBV = +21dBu
from -50dBV to +10dBV in 0.5dB steps
Balanced, >4kΩ
+42VDC, 5mA max. software switched

200mW/200Ω
5Hz to 24kHz
better than ±0.1dB
<0.004%
<0.008%
better than 115dB
better than 90dB (100dB typ.)
better than 100dB (115dB typ.)
65dB typ.
Dante™/AES67 Audio interface
Dante™/AES67 Network Tx / Rx channels
Latency
Connecto
Cable length between devices| 64 / 64
1 / 2 / 5 ms (selectable)
1xRJ45 primary, 1xRJ45 secondary
100m CAT5e/CAT6
Processing
Input level (x40)
Output level (x40)
Output gain (x40)Input delay (x40)
Output delay (x40)Parametric EQ types (4max/input –
8max/output)
High & Low pass output X-over filters(x40)
Input noise gate (x40)
Input compressor / limiter (x40)
Input Frequency Shifter (x40)(Feedback Loop Reducer)
Output Limiter (x40)
Built in Signal Generator
Stereo Linking| Range: from Off to 0 dB
Mute: Yes
Signal Polarity reverse: Yes
Metering: VU+clip pre & post fader
Range: from Off to 0 dB
Mute: Yes
Solo: Yes
Signal Polarity reverse: Yes
Metering: VU+clip pre & post fader
Range: from 0 to +6 dB
from 0 to 1000 ms. Units: sec/ms/m/cm.
from 0 to 1000 ms. Units: sec/ms/m/cm.Bypass / On-Off all channels
Param Eq. Freq: 20Hz-20kHz;
Gain: -60/+12 dB
Q: 0.3 to 200
Low & High Shelf 6/12 dB/oct
Low & High Pass 6/12 dB/oct
All Pass 1/2 order
Bypass On-Off
Butterworth in 6/12/18/24 dB/oct
Bessel in 12/18/24 dB/oct
Linkwitz-Riley in 12/24 dB/oct
Bypass On-Off
Threshold: from –80 dBV to +18 dBV
Depth: 0 dB to 80 dB
Attack time: from 0,1 ms. to 500 ms.
Hold time: from 10 ms. to 3000 ms.
Release time: from 10 ms. to 1000 ms.
Bypass On-Off
Threshold: from –36 dBV to +18 dBV
Knee: hard / soft
Ratio: inf:1 (limiter)
Attack time: from 0,1 ms. to 500 ms.
Release time: from 10 ms. to 1000 ms.
Make up gain: from 0 to +10 dB
Per input. ON / OFF function
Bypass On-Off
Threshold: from –36 dBV to +18 dBV
Attack time: from 0,1 ms. to 500 ms.
Release time: from 10 ms. to 1000 ms.
Sine: from 20 Hz to 20 kHz
Polarity: from 20 Hz to 20 kHz
White noise
Pink noise
Adjacent input / output channels
Linked processing
Matrix routing linked
Mix Matrix
Pager (x10)| Size: 72×72
Analogue in/out 8×8
Dante/AES67 network in/out 32×32
Vol: Input, Output, Crosspoint
Mute: Set/Clear individual, row, column, all
nput /output Mono/stereo selector
Meter: Input /output VU and clip
nput: IN1 to IN40
Priorities: 10 (1 max, 10 min)
Depth: 0 dB to 80 dB
Attack time: from 5 ms. to 2000 ms.
Release time: from 50 ms. to 3000 ms.
Chime Source: None, Melody 1, Melody 2
Chime Volume: from –12dB to 0dB
Mechanical
Dimensions (WxHxD) Weight| 482.6 x 44 x 253 mm / 19 x 1.73 x 9.96 in.
3,25kg / 7.17 lb.
Power supply
Mains
Power consumption| 90-264VCA 47-63Hz
30VA
Management Connectivity
GPIGPO
Aux. Power Supply for Remotes & GPITime and date retention (battery)| Ethernet Base-Tx 10 /100Mb, 1GB Auto X-Over
CAT5e or better
8, from 0 to 12VDC or TTL level
8, 3 poles isolated relay; 1A, 48VDC max.
+12VDC, 1.2A max. (short circuit protected)
3 months
Programming and control application
EclerNet Manager| From v5.00

TP-NET PROTOCOL
SOFTWARE
Third-Party NET
USER MANUAL

TP-NET PROTOCOL INTRODUCTION

The TP-NET protocol lets a client device (control device) get and/or set the values of several parameters of the EclerNet compatible devices (MIMO and MIMO SG series digital matrices, DUO-NET PLAYER, NXA digital audio manager series, NZA amplifier
series, NPA amplifier series, etc.), like volumes, mutes, alarms, etc. It’s as well available for eMIMO1616 digital matrix, HUB series digital zoner, MIMO7272DN and MIMO4040CDN digital matrix.
The communication with these digital audio devices can be established using Ethernet and the UDP/IP transport protocol, always by means of the 5800 UDP port.
A second option for this communication is using the RS-232 interface that some of these compatible devices do also have (MIMO series, DUO-NET PLAYER, NXA series, etc.). In this case, the serial connection must fulfil the following specifications:

1. Baud rate: 57600 (fixed, no autonegotiation) for all the devices, except for DUO- NET PLAYER, eMIMO1616, HUB series and MIMO4040CDN, which use 115200 baud rate)
2. Data bits: 8
3. Parity: None
4. Stop bits: 1

5. Flow control: None
   In case the Ecler device has an Euroblock connector for the RS-232 interface, the serial cable wiring, from the device’s connector to a standard DB9 serial interface connector, must be the following: WIRING RS232 — DB9

   RS232| DB9
   Tx| Pin 2 (RxD)
   Rx| Pin 3 (TxD)
   Gnd| Pin 5 (Signal Gnd)

The protocol is simple and direct, making it easy to read, write and modify the generated code. It is based on messages with no begin and end delimiter: each message is selfdelimited by the UDP packet size, which is defined with a maximum of 80 characters. All the messages must be written in capital letters.
To let some control systems (like CRESTRON®, EXTRON®, AMX®, RTI®, VITY®, MEDIALON®, etc.) process the messages more easily, the EclerNet device adds the character LF (0x0A) to the end of each message. This way the client can buffer the messages to process them, if it’s required. The EclerNet device can also handle several messages received in a single message packet by using the LF delimiter.
The available messages are built with one or more fields separated with blank spaces ( = blank space): The first field (TYPE) defines the message type and then, the required parameters for it (each kind of message requires a given number of parameters). The field TYPE can have these values:

6. SYSTEM
7. GET
8. SET
9. INC
10. DEC
11. SUBSCRIBE
12. UNSUBSCRIBE
13. DATA
14. ERROR

At the end of this document you’ll find all the available messages and their parameters for each model of the EclerNet compatible devices.
The SYSTEM, GET, SET, INC, DEC, SUBSCRIBE & UNSUBSCRIBE messages can be sent from the client to the EclerNet device. The DATA & ERROR messages can be sent from the device to the client. The only exception is the SYSTEM PING message, that is a
SYSTEM type message that is sent from the EclerNet device when the initial message from the client to the device was SYSTEM CONNECT PINGPONG.
The communication (using UDP or RS-232) starts when a client sends the message SYSTEM CONNECT to the EclerNet device. As far as the UDP communication requires no connection (unlike the TCP), the EclerNet device stores this client’s IP address, and
then uses it as the destination IP address for the messages that it generates (DATA & ERROR). After receiving the SYSTEM CONNECT message, the device dumps its entire configuration using several consecutive DATA messages.
Note: if the configuration data dump process (usually a huge list of parameters & values) wants to be avoided after a SYSTEM CONNECT message, a SYSTEM CONNECT ONCE message can be used instead.
The communication can be terminated by two methods:

• Manually: when the client sends the SYSTEM DISCONNECT message, cancelling all the subscriptions and stopping the DATA & ERROR messages
• Automatically: in case the initial message was SYSTEM CONNECT PINGPONG and the client didn’t get any SYSTEM PONG message in a period longer than 10 seconds (presuming a communication breakdown).

The SET messages don’t have an automatic acknowledgement with a DATA message sent from the EclerNet device after it has processed the SET command. The client must update the values itself and must send the needed GET message if it requires confirmation from the device.

NOTES:

• The numerical values are always integer numbers without +, –, comma or dot symbols.
• [PINGPONG] is an optional parameter used to configure the device-client communication with a periodical check, to see whether the client or the device have terminated it. When configured this way, the device sends a SYSTEM PING once per second, and the client must answer with a SYSTEM PONG message. If anyone doesn’t get these messages along a 10 seconds period, the communication will be considered terminated.
• [ONCE] is an optional parameter used to start the device-client communication without a full data dump process (usually a huge list of parameters & values).
• &
  are numerical values that identify an input or output channel of the EclerNet device. It can be within a [1…40] range for MIMO7272DN.
• is a numerical value that identifies one available Preset stored in the EclerNet device’s memory.
• ,

   y  are numerical values in the [0..100] range that define values in a scale equivalent to [-inf..0] dB
  

• & are numerical values within the [1..8] range for MIMO7272DN.
• is a numerical value within the [0..100] range that indicates the value. of an analogue GPI input. For a digital input only 0 or 100 are the possible values
• is a numerical value within the [0..1] range: it can only be 0 or 1 (opened or closed GPO).
• is a numerical value within the [1..10] range that sets the VU-meter refresh rate, or the number of times the vumeters’ values are sent per second (by default = 3) .
• “” is the device name inside double quotation marks, to allow for names with blank spaces.
• is a numerical value for an error code.
• “” is a text chain inside double quotation marks, containing an error description.
• is a numerical value that identifies a Virtual. It can be within a [1..160] range for MIMO7272DN model.

MIMO 7272DN DIGITAL MATRIX

IMPORTANT NOTE: The communication must be started with the client sending the first message SYSTEM CONNECT or SYSTEM CONNECT ONCE to the EclerNet device. Otherwise, the commands from the client to the EclerNet device will be ignored. See TP-NET PROTOCOL INTRODUCTION chapter for additional information.

TYPE| PARAM1| PARAM2| PARAM3| PARAM4| DESCRIPTION
---|---|---|---|---|---
SYSTEM| CONNECT| [MASTER]| [PINGPONG]| [ONCE]| • MASTER: this parameter, applied in SYSTEM CONNECT, is used to disconnect all clients currently connected to the device, releasing all open and not correctly closed connections, opening a new connection. In this way we guarantee that the client that has set the MASTER option is the only one connected by TP-NET to the device.
• PINGPONG: this parameter can be used with the MASTER parameter, the difference is that this parameter performs a periodic check to see if the communication is still open (PING PONG) or if after 10 seconds with no response, the communication has ended (PING).
• ONCE: this parameter is used to prevent the device status dump.
DISCONNECT| | | | Cancel subscriptions and terminates communication
SUBSCRIPTION_RATE| | | | Alive message from device
PING| | | | Alive message from device
PONG| | | | Alive ACK message from client
PING INTERVAL| <1-1000>| | | Ping Interval, in seconds
GET| ALL| | | | Dumps current device status (with DATA messages)
PRESET| | | | Gets the current PRESET
ILEVEL| | | | Gets the current LEVEL of an Input Channel
OLEVEL|

| | | Gets the current LEVEL of an Output Channel
XLEVEL| | <Output Channel>| | Gets the current LEVEL of a Matrix point
IMUTE| | | | Gets the current MUTE status of an Input Channel
XMUTE| | <Output Channel>| | Gets the current MUTE status of a Matrix Point
IVU| | | | Gets the VU-meter value of an Input Channel
OVU|

| | | Gets the VU-meter value of an Output

Channel

GPI| | | | Gets the current value of a General Purpose Input
GPO|

| | | Gets the current value of a General Purpose Output
INFO_NAME| | | | Gets the Device Name
INFO_MODEL| | | | Gets the Device Model
INFO_VERSION| | | | Gets the Firmware Version
INFO_MAC| | | | Gets the Device MAC address
VIRTUAL_CONTROL| | | | Gets the Virtual Control value
TYPE| PARAM1| PARAM2| PARAM3| PARAM4| DESCRIPTION
---|---|---|---|---|---
SET| PRESET| | | | Sets the current PRESET
ILEVEL| | | | Sets the current LEVEL of an Input Channel
OLEVEL|

| | | Sets the current LEVEL of an Output Channel
XLEVEL| | <Output Channel>| | Sets the current LEVEL for a Matrix point
IMUTE| | YES/NO| | Sets the current MUTE status of an Input Channel
XMUTE| | <Output Channel>| YES/NO| Sets the current MUTE status for a Matrix Point
GPO|

| | | Sets the current value for a General Purpose Output
VIRTUAL_CONTROL| | | | Sets the Virtual Control value (Value can range from 1 to 100)
INC| ILEVEL| | | | Increases the current LEVEL of an Input Channel

by Value (Value can range from ±1 to ±100)

OLEVEL|

| | | Increases the current LEVEL of an Output Channel by Value (Value can range from ±1 to ±100)
XLEVEL| | <Output Channel>| | Increases the current LEVEL of a Matrix point by Value (Value can range from ±1 to ±100)
DEC| ILEVEL| | | | Decreases the current LEVEL of an Input Channel by Value (Value can range from ±1 to ±100)
OLEVEL|

| | | Decreases the current LEVEL of an Output Channel by Value (Value can range from ±1 to ±100)
XLEVEL| | <Output Channel>| | Decreases the current LEVEL of a Matrix point by Value (Value can range from ±1 to ±100)
SUBSCRIBE| ALL| | | | Subscribes to all VU-meters
IVU| | | | Subscribes to an Input Channel VU-meter
OVU|

| | | Subscribes to an Output Channel VU-meter
UNSUBSCRIBE| ALL| | | | Unsubscribe to all VU-meters
IVU| | | | Unsubscribe to an Input Channel VU-meter
OVU|

| | | Unsubscribe to an Output Channel VU-meter

Note: INC and DEC commands are replied with a DATA command from the device with the resulting LEVEL value, after it has been increased or decreased. When the INC or DEC command tries to adjust a LEVEL value beyond its minimum or maximum limits, no reply (DATA command) will be produced.

TYPE| PARAM1| PARAM2| PARAM3| PARAM4| DESCRIPTION
---|---|---|---|---|---
DATA| PRESET| | | | Shows the current PRESET
ILEVEL| | | | Shows the current LEVEL of an Input Channel
OLEVEL|

| | | Shows the current LEVEL of an Output Channel
XLEVEL| |

| | Shows the current LEVEL for a Matrix point
IMUTE| | YES/NO| | Shows the current MUTE status of an Input Channel
XMUTE| |

| YES/NO| Shows the current MUTE status for a Matrix Point
VIRTUAL_CONTROL| | | | Shows the Virtual Control value (Value can range from 1 to 100)
IVU| | <Pre Vumeter Level>| <Post Vumeter Level>| Shows the VU- meter value of an Input Channel
OVU|

| <Pre Vumeter Level>| <Post Vumeter Level>| Shows the VU-meter value of an Output Channel
GPI| | | | Shows the current value of a General Purpose Input
GPO|

| <GPO Value)| | Shows the current value of a General Purpose Output.
INFO_NAME| “”| | | Shows the Device Name
INFO_MODEL| | | | Shows the Device Model
INFO_VERSION| | | | Shows the Firmware Version
INFO_MAC| <Device MAC address>| | | Shows the Device MAC address
INFO_IPLIST| | | | Shows the list of clients connected to the Device. The message will contain a list including Client Number ClientIP Client Port (separated by blank characters)

ERROR CODES FOR ECLERNET DEVICES

14.1 COMMON ERROR CODES (to all EclerNet – TP-NET compatible devices)

14.2 MIMO7272DN SPECIFIC ERROR CODES

All product characteristics are subject to variation due to production tolerances.
NEEC AUDIO BARCELONA S.L. reserves the right to make changes or improvements in the design or manufacturing that may affect these product specifications.
For technical queries contact your supplier, distributor or complete the contact form on our website, in Support / Technical requests.
Motors, 166‐168 08038 Barcelona ‐ Spain ‐ (+34) 932238403 | information@ecler.com | www.ecler.com

References

• Dante Controller | Dante

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