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USER MANUAL MIMO1212SG Ecler
Point chaud (signal direct) > Terminal +
Point froid (signal inversé) > Terminal -
Masse > Terminal ⊥
Point chaud (signal direct) > Terminal +
Point froid (signal inversé) > Terminal -
Masse > Terminal ⊥
| DSP | |
| DSP | 2x 32/64bit |
| Sampling Rate | 48kHz |
| Latency IN to OUT | <2.9ms |
| Converters | |
| Resolution | 24bit AKM |
| Dynamic Range | AD:110dB, DA: 115dB |
| Analogue | |
| x8 Input/Output | Terminal block (Symmetrical) |
| Analogue Input headroom | +27dBV = +30dBu |
| Max. output level | +18dBV = +21dBu |
| Input sensitivity @ 0dBV out | From -50dBV to +10dBV in 0.5dB step |
| Input Impedance | Balanced, >4kΩ |
| Phantom power | +42VDC, 5mA max software switched |
| Frequency response (-3dB) | 5Hz to 24kHz |
| Flatness | better than ±0.1dB |
| THD+Noise @ 1kHz, 0dBV input (line) | <0.004% |
| THD+Noise @ 1kHz, -40dBV input (mic.) | <0.008% |
| Output Noise floor FFT (20Hz - 20kHz) | better than 115dB |
| Interchannel crosstalk (20Hz - 20kHz) | better than 90dB (100dB typ.) |
| Channel Leakage (20Hz - 20kHz) | better than 100dB (115dB typ.) |
| CMRR 20Hz- 20kHz | 65dB typ. |
| Processing | |
| Input Level (x8) | Range: from Off to 0 dB |
| Mute: Yes | |
| Signal Polarity reverse: Yes | |
| Metering: VU+clip pre & post fader | |
| Output Level (x8) | Range: from Off to 0 dB |
| Mute: Yes | |
| Solo: Yes | |
| Signal Polarity reverse: Yes | |
| Metering: VU+clip pre & post fader | |
| Output Gain | Range: from 0 to +6 dB |
| Input Delay (x8) | from 0 to 1000 ms |
| Units: sec/ms/m/cm | |
| Output Delay (x8) | from 0 to 1000 ms |
| Units: sec/ms/m/cm. | |
| Parametric Eq. Types(4 max per input)(6 max per input) | Bypass / On-Off all channelsParam Eq. Freq: 20Hz-20kHz; Gain: -60/+12 dB; Q: 0.3 to 200Low & High Shelf 6/12 dB/octLow & High Pass 6/12 dB/octAll Pass 1/2 order |
| High & Low pass output Crossoverfilters (x8) | Bypass On-OffButterworth in 6/12/18/24 dB/octBessel in 12/18/24 dB/octLinkwitz-Riley in 12/24 dB/oct |
| Input Noise Gate (x8) | Bypass On-OffThreshold: from -80 dBV to +18 dBVDepth: 0 dB to 80 dBAttack time: from 0,1 ms. to 500 ms.Hold time: from 10 ms. to 3000 ms.Release time: from 10 ms. to 1000 ms. |
| Input Compressor / Limiter (x8) | Bypass On-OffThreshold: from -36 dBV to +18 dBVRatio: 1:1 to inf:1 (limiter)Knee: hard / softAttack time: from 0,1 ms. to 500 ms.Release time: from 10 ms. to 1000 ms.Make up gain: from 0 to +10 dB |
| Input Frequency Shifter (x4)(Feedback Loop Reducer) | Available on IN1 to IN4. ON / OFF function |
| Output Limiter (x8) | Bypass On-OffThreshold: from -36 dBV to +18 dBVAttack time: from 0,1 ms. to 500 ms.Release time: from 10 ms. to 1000 ms. |
| Built in Signal Generator | Sine: from 20 Hz to 20 kHzPolarity: from 20 Hz to 20 kHzWhite noisePink noise |
| Stereo Linking | Adjacent input / output channelsLinked processingMatrix routing linked |
| Mix Matrix | Size: 8x8Vol: Input, Output, CrosspointMute: Set/Clear individual, row, column, all Input /outputMono/stereo selectorMeter: Input /output VU and clip |
| Pager (x3) | Input: IN1 to IN8Priorities: 3 (1 max, 3 min)Depth: 0 dB to 80 dBAttack time: from 5 ms. to 2000 ms.Release time: from 50 ms. to 3000 ms.Chime Source: None, Melody 1, Melody 2Chime Volume: from -12 dB to 0 dB |
Mechanical
| Dimensions (WxHxD) | 482.6 x 44 x 253 mm / 19 x 1.73 x 9.96 in. |
| Weight | 3.5kg |
| Supply | |
| MainsPower consumption | 90-264VCA 47-63Hz45VA |
| Miscellaneous | |
| Management ConnectivityRemote BusGPIAux. Power Supply for Remotes & GPITime and date retention (battery)RTC accuracy | Ethernet Base-Tx 10/100Mb Auto X-Over CAT5 up to 100m Over twisted pairs; up to 1km (see specific specs.)8, from 0 to 10VDC or TTL level+12VDC, 1.2A. max. (short circuit protected)100 hours approx. (ambient temperature dependant)±1 minute / month |
| Software | |
| EclerNet Manager | From v3.03r4 version |
9.2. MIMO1212SG
| DSP | |
| DSP | 2x 32/64bit |
| Sampling Rate | 48kHz |
| Latency IN to OUT | <3.2ms |
| Converters | |
| Resolution | 24bit AKM |
| Dynamic Range | AD:110dB, DA: 115dB |
| Analogue | |
| 12 Input/Output | Terminal block (Symmetrical) |
| Analogue Input headroom | +27dBV = +30dBu |
| Max. output level | +18dBV = +21dBu |
| Input sensitivity @ 0dBV out | From -50dBV to +10dBV in 0.5dB step |
| Input Impedance | Balanced, >4kΩ |
| Phantom power | +42VDC, 5mA max. software switched |
| Frequency response (-3dB) | 5Hz to 24kHz |
| Flatness | better than ±0.1dB |
| THD+Noise @ 1kHz, 0dBV input (line) | <0.004% |
| THD+Noise @ 1kHz, -40dBV input (mic.) | <0.008% |
| Output Noise floor FFT (20Hz - 20kHz) | better than 115dB |
| Interchannel crosstalk (20Hz - 20kHz) | better than 90dB (100dB typ.) |
| Channel Leakage (20Hz - 20kHz) | better than 100dB (115dB typ.) |
| CMRR 20Hz- 20kHz | 65dB typ. |
| Processing | |
| Input Level (x12) | Range: from Off to 0 dB |
| Mute: Yes | |
| Signal Polarity reverse: Yes | |
| Metering: VU + clip pre & post fader | |
| Output Level (x12) | Range: from Off to 0 dB |
| Mute: Yes | |
| Solo: Yes | |
| Signal Polarity reverse: Yes | |
| Metering: VU + clip pre & post fader | |
| Output Gain (x12) | Range: from 0 to +6 dB |
| Input Delay (x12) | from 0 to 1000 ms. |
| Units: sec/ms/m/cm. | |
| Output Delay (x12) | from 0 to 1000 ms. |
| Units: sec/ms/m/cm. | |
| Parametric Eq. Types(4 max per input)(6 max per input) | Bypass / On-Off all channelsParam Eq. Freq: 20Hz-20kHz; Gain: -60/+12 dB; Q: 0.3 to 200Low & High Shelf 6/12 dB/octLow & High Pass 6/12 dB/octAll Pass 1/2 order |
| High & Low pass output Crossoverfilters (x12) | Bypass On-OffButterworth in 6/12/18/24 dB/octBessel in 12/18/24 dB/octLinkwitz-Riley in 12/24 dB/oct |
| Input Noise Gate (x12) | Bypass On-OffThreshold: from -80 dBV to +18 dBVDepth: 0 dB to 80 dBAttack time: from 0,1 ms. to 500 ms.Hold time: from 10 ms. to 3000 ms.Release time: from 10 ms. to 1000 ms. |
| Input Compressor / Limiter (x12) | Bypass On-OffThreshold: from -36 dBV to +18 dBVRatio: 1:1 to inf:1 (limiter)Knee: hard / softAttack time: from 0,1 ms. to 500 ms.Release time: from 10 ms. to 1000 ms.Make up gain: from 0 to +10 dB |
| Input Frequency Shifter (x4)(Feedback Loop Reducer) | Available on IN1 to IN4. ON / OFF function |
| Output Limiter (x12) | Bypass On-OffThreshold: from -36 dBV to +18 dBVAttack time: from 0,1 ms. to 500 ms.Release time: from 10 ms. to 1000 ms. |
| Built in Signal Generator | Sine: from 20 Hz to 20 kHzPolarity: from 20 Hz to 20 kHzWhite noisePink noise |
| Stereo Linking | Adjacent input / output channelsLinked processingMatrix routing linked |
| Mix Matrix | Size: 12x12Vol: Input, Output, CrosspointMute: Set/Clear individual, row, column, allInput /output Mono/stereo selectorMeter: Input /output VU and clip |
| Pager (x3) | Input: IN1 to IN12Priorities: 3 (1 max, 3 min)Depth: 0 dB to 80 dBAttack time: from 5 ms. to 2000 ms.Release time: from 50 ms. to 3000 ms.Chime Source: None, Melody 1, Melody 2Chime Volume: from -12 dB to 0 dB |
| Mechanical | |
| Dimensions (WxHxD)Weight | 482.6 x 44 x 253 mm / 19 x 1.73 x 9.96 in.3.2kg |
| Supply | |
| MainsPower consumption | 90-264VCA 47-63Hz75VA |
| Miscellaneous | |
| Management ConnectivityRemote BusGPIAux. Power Supply for Remotes & GPITime and date retention (battery)RTC accuracy | Ethernet Base-Tx 10/100Mb Auto X-Over CAT5 up to 100m.Over twisted pairs; up to 1km (see specific specs.)12, from 0 to 10VDC or TTL level+12VDC, 0,6A. max. (short circuit protected)100 hours approx. (ambient temperature dependant)±1 minute / month |
| Software | |
| EclerNet Manager | From v3.03r4 version |
10. BLOCK DIAGRAM
10.1. MIMO88SG
flowchart
graph TD
A["OUT 1 ANALOG"] --> B["RELAY"]
B --> C["DAC"]
C --> D["COMPRESSOR LIMTER"]
D --> E["DELAY"]
E --> F["EQ"]
F --> G["GAIN"]
G --> H["VOL MUTE PHASE VU"]
H --> I["MUTE AUTOMATIC MIXER PAGER DUCKER"]
I --> J["CONTROL"]
J --> K["RTC"]
K --> L["ETHERNET"]
L --> M["RS232"]
M --> N["CAN BUS +L H L"]
N --> O["GPIO 1"]
O --> P["TTL"]
P --> Q["GPIO 8"]
Q --> R["GPIO 20"]
S["ANALOG IN"] --> T["PHANTOM 42V"]
T --> U["PAD 0-20-40dB"]
U --> V["FRIQUENCY SHIFTER CH1-CH4"]
V --> W["COMPRESSOR"]
W --> X["GATE"]
X --> Y["DELAY"]
Y --> Z["EQ"]
Z --> AA["VOL MUTE PHASE VU"]
AA --> AB["GPIO 20"]
AC["INPUT SWITCH"] --> AD["INTERNAL SIGNAL GENERATOR"]
AD --> AE["IN 1"]
AE --> AF["+10dB GAIN"]
AF --> AG["+10dB"]
AG --> AH["IN 8"]
AH --> AI["FRIQUENCY SHIFTER CH1-CH4"]
AI --> AJ["COMPRESSOR"]
AJ --> AK["GATE"]
AK --> AL["DELAY"]
AL --> AM["EQ"]
AM --> AN["VOL MUTE PHASE VU"]
10.1. MIMO1212SG
flowchart
graph TD
A["OUT 1 ANALOG"] --> B["RELAY"]
B --> C["DAC"]
C --> D["COMPRESSOR LIMITER"]
D --> E["DELAY"]
E --> F["EQ"]
F --> G["GAIN"]
G --> H["VOL MUTE PHASE VU"]
H --> I["MUTE AUTOMATIC MIXER PAGER DUCKER"]
I --> J["CONTROL"]
J --> K["RTC"]
K --> L["ETHERNET"]
L --> M["RS232 Tx Rx T"]
M --> N["CAN BUS + LT H L"]
N --> O["GPIO 1"]
O --> P["GPIO 12"]
P --> Q["GPIO 12"]
Q --> R["GPIO 12"]
R --> S["GPIO 12"]
S --> T["GPIO 12"]
T --> U["GPIO 12"]
U --> V["GPIO 12"]
V --> W["GPIO 12"]
W --> X["GPIO 12"]
X --> Y["GPIO 12"]
Y --> Z["GPIO 12"]
Z --> AA["GPIO 12"]
AA --> AB["GPIO 12"]
AB --> AC["GPIO 12"]
AC --> AD["GPIO 12"]
AD --> AE["GPIO 12"]
AE --> AF["GPIO 12"]
AF --> AG["GPIO 12"]
AG --> AH["GPIO 12"]
AH --> AI["GPIO 12"]
AI --> AJ["GPIO 12"]
AJ --> AK["GPIO 12"]
AK --> AL["GPIO 12"]
AL --> AM["GPIO 12"]
AM --> AN["GPIO 12"]
AN --> AO["GPIO 12"]
AO --> AP["GPIO 12"]
AP --> AQ["GPIO 12"]
AQ --> AR["GPIO 12"]
AR --> AS["GPIO 12"]
AS --> AT["GPIO 12"]
AT --> AU["GPIO 12"]
AU --> AV["GPIO 12"]
AV --> AW["GPIO 12"]
AW --> AX["GPIO 12"]
AX --> AY["GPIO 12"]
AY --> AZ["GPIO 12"]
AZ --> BA["GPIO 12"]
BA --> BB["GPIO 12"]
BB --> BC["GPIO 12"]
BC --> BD["GPIO 12"]
BD --> BE["GPIO 12"]
BE --> BF["GPIO 12"]
BF --> BG["GPIO 12"]
BG --> BH["GPIO 12"]
BH --> BI["GPIO 12"]
BI --> BJ["GPIO 12"]
BJ --> BK["GPIO 12"]
BK --> BL["GPIO 12"]
BL --> BM["GPIO 12"]
BM --> BN["GPIO 12"]
BN --> BO["GPIO 12"]
BO --> BP["GPIO 12"]
BP --> BQ["GPIO 12"]
BQ --> BR["GPIO 12"]
BR --> BS["GPIO 12"]
TP-NET PROTOCOL
SOFTWARE
Third-Party NET
USER MANUAL
11. 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:
- 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)
- Data bits: 8
- Parity: None
- Stop bits: 1
- 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 self-delimited 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):
<TYPE> [PARAM1] [PARAM2] [PARAM3] [PARAM4][LF]
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:
- SYSTEM
• GET - SET
• INC
• DEC - SUBSCRIBE
- UNSUBSCRIBE
- DATA
- 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).
-
&
-
It can be within a [1..8] range for MIMO88SG units.
-
It can be within a [1..12] range for MIMO1212SG units.
-
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 the MIMO88 configured as 8x8 matrix masters (single units), and [1..16] for MIMO88 couples configured as 16x16 matrix masters. For the NXA series GPI values can be within the [1..4] or [1..6] range, depending on model. For the MIMO7272DN and MIMO4040CDN GPI and GPO values can be within [1..8]. 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 Control. It can be within a [1..64] range for MIMO88SG, MIMO88SGCONF, , MIMO1212SG and MIMO1212SGCONF models.
ecler
12. MIMO88SG / MIMO1212SG (SINGLE) 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 |
| 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 | Gets the current LEVEL of a Matrix point | ||||
| IMUTE | Gets the current MUTE status of an Input Channel | ||||
| OMUTE | Gets the current MUTE status of an Output Channel | ||||
| XMUTE | 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 (not valid for MIMO88SG / MIMO1212SG) | ||||
| 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 |
ecler
| 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 | Sets the current LEVEL for a Matrix point | ||||
| IMUTE | YES/NO | Sets the current MUTE status of an Input Channel | |||
| OMUTE | YES/NO | Sets the current MUTE status of an Output Channel | |||
| XMUTE | YES/NO | Sets the current MUTE status for a Matrix Point | |||
| GPO | Sets the current value for a General Purpose Output (not valid for MIMO88SG) | ||||
| 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 | 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) |
ecler
| XLEVEL | 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 | |||
| OMUTE | YES/NO | Shows the current MUTE status of an Output 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 | Shows the VU-meter value of an Input Channel | ||||
| OVU | Shows the VU-meter value of an Output Channel | ||||
| GPI | Shows the current value of a General Purpose Input | ||||
| GPO | Shows the current value of a General Purpose Output. (not valid for MIMO88SG) | ||||
| INFO_NAME | " | Shows the Device Name | |||
| INFO_MODEL | Shows the Device Model | ||||
| INFO_VERSION | Shows the Firmware Version | ||||
| INFO_MAC | Shows the Device MAC address | ||||
| ERROR | " | Informs about an error |
13. MIMO88SG CONFERENCE 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.
This MIMO88SG CONFERENCE firmware version shares the same hardware with the standard MIMO88SG unit, just uploading the CONFERENCE firmware version to it, and shares as well the same TP-NET commands in the above table, adding to them these new ones:
| TYPE | PARAM1 | PARAM2 | PARAM3 | PARAM4 | DESCRIPTION |
| GET | GATE | Gets the current status of the NOISE GATE for inputs 1 to 8 | |||
| AUTOMIXER | Gets the current status of the AUTOMIXER function for inputs 1 to 8 | ||||
| SUBSCRIBE | GATE | Subscribes to the status of the NOISE GATE for inputs 1 to 8 | |||
| AUTOMIXER | Subscribes to the status of the AUTOMIXER function for inputs 1 to 8 | ||||
| UNSUSCRIBE | GATE | Unsubscribes to the status of the NOISE GATE for inputs 1 to 8 | |||
| AUTOMIXER | Unsubscribes to the status of the AUTOMIXER function for inputs 1 to 8 | ||||
| DATA | GATE | s1 s2 s3 s4 s5 s6 s7 s8 | Shows the current NOISE GATE status (0 = open / 1 = closed) for the 8 inputs channels (s1 to s8, status of the gate for inputs 1 to 8) | ||
| AUTOMIXER | s1 s2 s3 s4 s5 s6 s7 s8 | Shows the current status for input channels in the Automixer section (0 = disabled or bellow threshold in the automixer / 1 = enabled and beyond threshold, but queued, not in the automatic mix / 2 = enabled, beyond threshold and into the automatic mix) for the 8 inputs channels (s1 to s8, status of the automixer function for inputs 1 to 8) |
14. ERROR CODES FOR ECLERNET DEVICES
14.1. COMMON ERROR CODES (to all EclerNet - TP-NET compatible devices)
| ERROR ID | DESCRIPTION |
| 0 | TPNET_ERROR_NONE = 0, |
| 1 | TPNET_ERROR_INVALID_FIELD_TYPE, |
| 2 | TPNET_ERROR_INVALID_FIELD_PARAM1, |
| 3 | TPNET_ERROR_INVALID_FIELD_PARAM2, |
| 4 | TPNET_ERROR_INVALID_FIELD_PARAM3, |
| 5 | TPNET_ERROR_INVALID_FIELD_PARAM4, |
14.2 MIMO88SG, MIMO1212SG, MIMO88SG CONFERENCE & MIMO1212SG CONFERENCE SERIES SPECIFIC ERROR CODES
| ERROR ID | DESCRIPTION |
| 6 | UDP_ERROR_TIMEOUT_PONG, |
| 7 | UDP_ERROR_CONNECT_WHILE_CONNECTED, |
| 8 | UDP_ERROR_DISCONNECT_WHILE_UNCONNECTED, |
| 9 | UDP_ERROR_INVALID_CLIENT_IP, |
| 10 | UDP_ERROR_MESSAGE_TOO_LONG, |
| 11 | UDP_ERROR_UNSUPPORTED_MESSAGE, |
| 12 | UDP_ERROR_UNSUPPORTED_PRESET_NUMBER, |
| 13 | UDP_ERROR_UNSUPPORTED_INPUT_CHANNEL_NUMBER, |
| 14 | UDP_ERROR_UNSUPPORTED_OUTPUT_CHANNEL_NUMBER, |
| 15 | UDP_ERROR_UNSUPPORTED_GPI_NUMBER, |
| 16 | UDP_ERROR_INVALID_LEVEL_VALUE, |
| 17 | UDP_ERROR_INVALID_RATE_VALUE, |
ecler
