Shure | ANI4IN | User guide | Shure ANI4IN Audio Network Interface User guide

Shure ANI4IN Audio Network Interface User guide
ANI4IN
概述
controls signal routing and channel settings from any computer connected
to the same network.
General Description
The Shure ANI4IN Audio Network Interface converts 4 analog audio channels
into independent digital audio channels on a Dante™ network. Microphone,
auxiliary, and line-level devices are supported, with adjustable gain and +48V
phantom power for each channel. In networked conferencing systems, the
Audio Network Interface provides a simple way to connect analog equipment
onto the audio network, such as wireless microphones. The web application
Model Variations
ANI4IN-XLR: Four XLR inputs (balanced audio only)
ANI4IN-BLOCK: Four 6-pin block connector inputs (balanced audio and
logic connections)
Hardware and Installation
Hardware
Block Connector Model:
௟
௠
௢
௣
INPUT
sig/clip
3
1
PoE
1
power
2
network
3
4
2
4
network audio
encryption
reset
௡
௤
XLR Model:
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௠
௣
INPUT
PoE
reset
௤
① Input Signal Clip Indicators
Each indicator corresponds to a single input channel. If the LED turns red, attenuate the level from the source device to prevent clipping at the input stage.
Analog and digital gain adjustments are made through the web application.
LED State
Audio Signal Level
Off
less than -60 dBFS
Green
-60 dBFS to -18 dBFS
Yellow
-18 dBFS to -6 dBFS
Red
-6 dBFS or more
② Audio and Logic Inputs
Note: Logic connections are only featured on the block connector version
Block Inputs: Each input receives balanced audio and logic signals. Pin assignments are as follows:
Audio +
Audio -
Audio ground
switch
Logic Mute (sent from microphone)
led
Logic LED (received by microphone)
gnd
Logic ground
XLR Inputs: Each input receives a balanced audio signal. Pin assignments are as follows:
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1
Ground
2
Positive
3
Negative
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③ Chassis Ground Screw
Provides an optional connection for microphone shield wire to chassis ground
Note: only applies to block connector version
④ LED Indicators
Power: Power over Ethernet (PoE) present
Note: Use a PoE injector if your network switch does not supply PoE.
Network: Network connection active
Network Audio: Dante™ audio present on the network
Note: Error details are available in the event log in the web application.
Encryption: Not currently supported
LED Status
Activity
Off
No active signal
Green
Device is operating successfully
Red
Error has occurred. See event log for details.
⑤ Dante Network Port
Connects to a network switch to send Dante™ audio, while receiving Power over Ethernet (PoE) and data from the control software. See the Dante and networking section for additional information.
⑥ Reset Button
Resets the device settings back to the factory default.
乙太網路供電 (PoE)
乙太網路供電
本裝置需要 PoE 才能工作。它與 0 和 3 PoE 源均相容。
乙太網路供電的工作方式如下:
•
一台提供 PoE 的網路交換機
•
一個 PoE 注射裝置
安裝和機架固定
有兩個固定解決方案可用於安裝
CRT1 19"
:
最多支援 3 個裝置;可固定於機架中或桌面下
支援單一裝置以固定在桌面下
固定裝置
使用固定硬體套件中包含的螺釘以固定
。
可朝任一方向固定。根據下列圖表,在適當的孔中從底部插入螺釘:
如圖所示對齊孔洞,在單一裝置固定托盤中固定單一裝置
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如圖所示對齊孔洞,在 19" 機架托盤中最多固定三個裝置。
機架耳片設定
可將最多 3 個
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的組合固定在單一 19 英吋機架空間中。可調節的機架耳片支援標準設備機架中或桌面下的安裝固定。
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標準 19" 機架固定
1. 使用指向前方的固定孔對齊耳片。
2. 安裝將耳片支撐在托盤上的兩個螺釘,如圖所示。
桌面下固定
1. 使用指向上方的固定孔對齊耳片。
2. 安裝將耳片支撐在托盤上的兩個螺釘,如圖所示。
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桌面下安裝
1. 以桌面下的所需位置支撐托盤
2. 使用鉛筆標記桌面下固定孔洞的位置。
3. 鑽出要使用螺釘的 4 個孔。托盤中的孔洞直徑為 7.1 毫米。
4. 將元件安裝到托盤中
5. 使用 4 顆螺絲安裝,以將托盤固定在桌面下
重設
重設按鈕位於後側面板的小孔內。使用迴紋針或其他小工具按壓該按鈕。
有兩個硬體重設功能:
網路重設(按住按鈕 4-8 秒鐘)
將所有 Shure 控制和音訊網路 IP 設定重設為出廠預設值
完全重設出廠設定(按住按鈕超過 8 秒鐘)
將所有網路和
恢復為出廠預設值。
軟體重設選項
若要簡單恢復設定,而不進行完整的硬體重設,請使用下列選項之一:
Reboot Device 在
(設定 > 出廠預設值)中,有Reboot Device按鈕,若裝置中斷網路連接,可簡單向裝置循環供電。重新啟動裝置後,會保留所有設定。
若要將音訊設定恢復為出廠預設值(排除设备名称、IP 設定和密碼),請選擇Load Preset並選擇預設設定預設。
Signal Flow and Connections
Setting up the Audio Network
Shure networked conferencing systems are comprised of Microflex Advance microphones and network interfaces, which operate entirely on a Dante™ network.
Additional hardware, including network switches, computers, loudspeakers, and audio processors are described in the hardware component index.
Shure components shown in this diagram:
Microflex Advance Microphones
The MXA910 and MXA310 are equipped with Dante outputs, and connect directly to a network switch.
Audio Network Interfaces
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The interfaces are used to connect analog devices such as loudspeakers and analog microphones to the network.
ANI4IN: Converts 4 analog signals (separate XLR and block connector models available) into Dante™ digital audio signals.
ANI4OUT: Converts 4 channels of Dante™ audio from the network into analog signals.
This diagram shows the entire signal path through a networked conference system. Signals from the near end and far end are exchanged through an audio
processor connected to a phone system, or through a computer connected to the internet. Analog microphones connect to the network through the Shure ANI4IN,
while loudspeakers connect through the Shure ANI4OUT.
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This diagram shows Microflex Advance components in context, with two rooms communicating through video codecs.
Controlling Hardware and Audio Over the Network
Audio and hardware settings are managed through a computer connected to the same network.
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Shure Hardware and Audio
Each Microflex Advance component has a web application which provides mixing and configuration tools to optimize sound quality.
Expanded Control for Analog Devices
Analog devices that are connected to the network through a Shure network interface (ANI4IN/ANI4OUT) benefit from additional remote control: Volume levels,
equalization, and signal routing are managed through the web application. For example, adjusting loudspeaker volume or muting a wired microphone, which
would normally be done from the hardware, can now be controlled remotely over the network.
Dante™ Signal Routing
Signal routing between devices is managed through Dante Controller software, provided by Audinate™ .
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Connections and Signal Flow
① MX396 (Dual-element)
In addition to running the audio signals, this boundary microphone features three additional wire leads for logic connections. This allows the switch on the microphone
to send a logic mute signal to other equipment on the network, and to receive a logic LED control signal.
② MX392
In addition to running the audio signal, this boundary microphone features three additional wire leads for logic connections. This allows the switch on the microphone
to send a logic mute signal to other equipment on the network, and to receive a logic LED control signal.
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③ ULX-D Receiver
Wireless microphones connect to the network interface through the balanced analog outputs on the receiver.
④ Network Switch
Provides connectivity between the Dante™ audio network and the computer that controls signal processing and routing.
⑤ Computer
A computer or tablet running the web application provides independent gain control for each connected device.
Input: Analog (4 XLR or Block Connectors)
Each Audio Network Interface has 4 analog inputs with variable analog gain for line, auxiliary, and microphone-level signals. Examples of devices to connect to
the network with the Audio Network Interface:
•
Wireless microphone systems
•
Wired installed microphones (logic functions supported by block connector model)
•
Computers or mobile devices used for presentations
•
Other playback devices
Output: Dante™ Digital Audio
Connect the Dante™ output to a network switch with a network cable. A single network cable delivers all 4 channels of audio onto the network, and carries
Power over Ethernet (PoE) to power the device. Use Dante™ Controller to route audio channels from the Audio Network Interface to the appropriate network
destination. Any of the signals may be routed to multiple destinations, to provide local reinforcement while simultaneously delivering audio to the far end.
Summing
The Audio Network Interface provides channel summing to combine input signals and send them over a single Dante™ channel. This makes it possible to send
all channels to a device with a limited amount of Dante™ receiver channels. Mixer functionality does not change; audio channels are simply sent as one combined
signal.
Note: When summing is enabled, a limiter is activated to prevent signal overloading. The limiter never applies to the direct outputs, and only affects the summed
signal.
To enable, select one of the summing options in the toolbar at the top of the mixer in the channels tab.
1
1
2
2
3
1+2
2
3
3+4
4
3+4
4
1
1
2
1
1 +2
1+2+3+4
2
3
3
3
4
4
4
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Example Scenario
A common application that requires summing is a video conference where there are multiple microphones. When a device (a computer running conferencing
software and Dante™ Virtual Soundcard, for example) only supports 1 or 2 Dante™ receiver channels, the Audio Network Interface combines the input signals
to transmit as a single Dante™ channel.
1
1+2+3+4
2
3
௟
4
௠
INPUT
௡
PoE
reset
① Summed analog audio channels
When the 4 analog audio channels are summed, each of the Dante™ transmit channels includes all of the input signals.
② Single Dante audio channel
One Dante™ signal is sent over the network, which contains all 4 summed channels.
③ Connection to computer
A computer that is running limited number of Dante™ channels with Dante™ Virtual Soundcard, receives all audio on a single channel. This audio is sent to
the far end.
Encryption
Audio is encrypted with the Advanced Encryption Standard ( AES -256), as specified by the US Government National Institute of Standards and Technology
(NIST) publication FIPS-197. Shure devices that support encryption require a passphrase to make a connection. Encryption is not supported with third-party
devices.
To activate encryption:
1. Open the 设置 menu and select the 總述 tab.
2. Select the Enable Encryption checkbox.
3. Enter a passphrase. All devices must use the same passphrase to establish an encrypted connection.
Important: For encryption to work:
•
Encryption must be universally enabled or disabled on all connected Shure devices
•
AES67 must be disabled in Dante Controller to turn encryption on or off. AES67 encryption is currently not supported.
Software Installation, Management, and Security
軟體安裝和裝置發現
Shure Web Device Discovery 應用程式用於存取適用於 Shure 裝置的
。如果加密設定不同,將在接收機液晶顯示面板上顯示
啟,提供綜合的裝置管理手段。和裝置聯網的任何電腦均可透過該應用存取 GUI。
•
Chrome
•
Safari
•
Firefox
•
Internet Explorer
可以在網路瀏覽器中開
1. 安裝 Shure Web Device Discovery 應用程式,該程式可從 www.shure.com 取得
2. 按兩下元件以開啟介面。
存取
Shure Web Server Discovery 應用程式可透過基於 Web 的圖表化使用者介面搜尋網路中的所有舒爾裝置。執行這些步驟,安裝軟體並存取
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① 安裝 Shure Discovery 應用程式
從 www.shure.com 下載並安裝 Shure Discovery 應用程式。這樣可以在電腦上自動安裝所需的 Bonjour 裝置檢測工具。
② 連接網路
確保電腦和硬體位於相同的網路中。
③ 啟動 Discovery 應用程式
應用程式將顯示採用圖表化使用者介面的所有舒爾裝置。
④ 識別硬體
按兩下裝置可在網路瀏覽器中開啟圖表化使用者介面 (GUI)。
⑤ 給裝置設定標籤
(建議)
將裝置的 DNS 名稱加入書籤,可以在不需要 Shure Discovery 應用程式的情況下存取圖表化使用者介面。
Accessing the Web Application without the Discovery App
If the Discovery application is not installed, the web application can be accessed by typing the DNS name into an internet browser. The DNS name is derived
from model of the unit, in combination with the last three bytes (six digits) of the MAC address, and ending in .local.
Format Example: If the MAC address of a unit is 00:0E:DD:AA:BB:CC, then the link is written as follows:
ANI4IN: http://ANI4IN-aabbcc.local
ANI4OUT: http://ANI4OUT-aabbcc.local
固件更新
固件是在每個功能控制元件中的嵌入式軟體。定期開發的新固件版本中包含附加功能和效能增強部分。若要享受設計改進帶來的優勢,可利用「Shure Update
Utility」工具上傳和安裝新版本的固件。軟體可以從網站 http://www.shure.com 中下載。
當 Shure MXW 音訊網路介面連接 Shure Olympus 元件時,它們的固件必須在更新 MXW 音訊網路介面固件之前在一台裝置上進行更新。嘗試同時更新所
有裝置將導致介面在固件更新後重新啟動,將遺失與其他聯網元件的連接。
按照以下步驟更新固件:
確保裝置在更新期間具有穩定的網路連接。在完成更新之前,請勿關閉裝置電源。
1. 將裝置和電腦接入同一網路(設為相同子網)。
2. 下載和安裝 Shure Update Utility。
3. 開啟應用程式。
4. 按一下 Check For Updates... 檢視可供下載的新固件版本。
5. 選擇所需的固件,按Download下載至固件庫中。
6. 從Update Devices標籤中選擇新固件,然後按下Send Updates...開始固件更新,這會重寫裝置現有固件。
固件版本要求
Shure MXW 裝置採用多通訊協定的網路,這些協定同時確保裝置正常工作。推薦的最佳做法是所有
個裝置的固件版本,可開啟元件使用者介面,然後查看 Settings>About.
Shure MXW 裝置採用相同的版本。若要檢視網路中每
Shure 裝置的固件格式為 MAJOR.MINOR.PATCH。(例如在固件「1.6.2」中,1 為主要固件等級,6 為次要固件等級,2 為補丁固件等級。)在相同子網工作
的裝置至少應擁有相同主要和次要版本號。
•
主要版本號不同的裝置不相容。
•
補丁固件版本號的差異可能會產生不希望出現的不一致性。
Channel Utilities
+48V (Phantom Power)
Delivers + 48V phantom power to the selected channel
Polarity Reverse
Each channel has a checkbox to reverse the polarity of the input signal.
Analog Gain
Adjusts the gain to optimize input signal level before the analog audio is converted to a digital audio.
Digital Gain
Adjusts the digital signal level to optimize the signal strength over the network.
Mute Groups
Check the 靜音群組 box to add the channel to a group. Muting any channel within the
mutes all channels in the group.
Fader Groups
Check the 化音器群組 box to add the channel to a group. All faders within the group are linked, and move together when a single fader is adjusted.
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Logic Switch Indicator
Illuminates when a switch logic signal is received by the Audio Network Interface from a microphone.
Note: only applies to block connector model.
Logic LED Indicator
Illuminates when an LED logic signal is received by the Audio Network Interface through the network from a control system.
Note: only applies to block connector model.
Parametric Equalizer
Maximize audio quality by adjusting the frequency response with the parametric equalizer.
Common equalizer applications:
•
Improve speech clarity
•
Reduce noise from HVAC systems or video projectors
•
Reduce room irregularities
•
Adjust frequency response for reinforcement systems
Setting Filter Parameters
Adjust filter settings by manipulating the icons in the frequency response graph, or by entering numeric values. Disable a filter using the check-box next to the
filter.
Filter Type
Only the first and last band have selectable filter types.
Parametric: Attenuates or boosts the signal within a customizable frequency range
Low Cut: Rolls off the audio signal below the selected frequency
Low Shelf: Attenuates or boosts the audio signal below the selected frequency
High Cut: Rolls off the audio signal above the selected frequency
High Shelf: Attenuates or boosts the audio signal above the selected frequency
Frequency
Select the center frequency of the filter to cut/boost
Gain
Adjusts the level for a specific filter (+/- 30 dB)
Q Width
Adjusts the range of frequencies affected by the filter. As this value increases, the bandwidth becomes thinner.
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Equalizer Applications
Conferencing room acoustics vary based on room size, shape, and construction materials. Use the guidelines in following table.
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EQ Application
Suggested Settings
Treble boost for improved speech intelligibility
Add a high shelf filter to boost frequencies greater than 1 kHz by 3-6 dB
HVAC noise reduction
Add a low cut filter to attenuate frequencies below 200 Hz
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EQ Application
Suggested Settings
Identify the specific frequency range that "excites" the room:
Set a narrow
1.
Q value
Reduce flutter echoes and sibilance
Increase the gain to between +10
2. and +15 dB, and then experiment with
frequencies between 1 kHz and 6 kHz to pinpoint the range of flutter echoes
or sibilance
Reduce the gain at the identified 3.
frequency (start between -3 and -6 dB) to
minimize the unwanted room sound
Identify the specific frequency range that "excites" the room:
Set a narrow
1.
Q value
Reduce hollow, resonant room sound
Increase the gain to between +10
2. and +15 dB, and then experiment with
frequencies between 300 Hz and 900 Hz to pinpoint the resonant frequency
Reduce the gain at the identified 3.
frequency (start between -3 and -6 dB) to
minimize the unwanted room sound
Custom Presets
Use presets to quickly save and recall settings. Up to 10 presets can be stored on each device to match various seating arrangements. A preset saves all device
settings except for the , IP Settings, and Passwords. Importing and exporting presets into new installations saves time and improves workflow. When a preset
is selected, the name displays above the preset menu. If changes are made, an asterisk appears next to the name.
Note: Use the default settings preset to revert to the factory configuration (excludes
, IP Settings, and Passwords).
Open the presets menu to reveal preset options:
save as preset:
Saves settings to the device
load preset:
Opens a configuration from the device
import from file:
Downloads a preset file from a computer onto the device. Files may be selected through the browser or dragged into the import window.
export to file:
Saves a preset file from the device onto a computer
Event Log
Event Log
The event log provides a detailed account of activity from the moment the device is powered on. The log collects up to 1,000 activity entries and time-stamps
them relative to the last power cycle. The entries are stored in the internal memory, and are not cleared when the device is power-cycled. The Export feature
creates a CSV (comma separated values) document to save and sort the log data.
Refer to the log file for details when troubleshooting or consulting with Shure Systems Support.
To view the event log:
1. Open the Help menu
2. Select View Event Log
Severity Level
Information
An action or event has been successfully completed
Warning
An action cannot be complete, but overall functionality is stable
Error
A problem has occurred that could inhibit functionality.
Log Details
Description
Provides details on events and errors, including IP address and subnet mask.
Time Stamp
Power cycles:days:hours:minutes:seconds since most recent boot-up.
Event ID
Indicates event type for internal reference.
Tip: Use the filter to narrow down results. Select a category heading to sort the log.
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Levels and Metering
Adjusting Input Levels
Input Levels
Before you begin, verify that levels from the analog devices with adjustable output levels are operating at nominal levels.
The analog gain adjusts the level of the audio signal before it is converted from analog to digital. It is adjustable in 3 dB increments, with up to 51 dB total gain.
1. Set the Metering to Pre-fader in the toolbar at the top of the workspace to monitor analog signal levels
2. Select the analog gain value to open the fader
3. Match the analog gain setting to the incoming signal level. Use the gain range markers on the fader to apply the appropriate amount of gain:
Source Level
Gain Range
Line (+4 dBu)
0 to +9 dB
Auxiliary (-10 dBV)
+9 to +21 dB
Microphone (varies)
+21 to +51 dB
4. The meters should peak between -18 and -9 dB.
Note: Leaving some additional headroom is a recommended to prevent clipping if mobile devices will be plugged into particular channels.
Adjusting Output Levels
Output Levels
Output levels are controlled by the Digital Gain (dB) fader. Always adjust the input gain (analog) before the output gain (digital). In most cases, setting the analog
gain correctly results in an appropriate output level. Sources that have a quiet signal, such as a microphone with low sensitivity, may need someDigital Gain
(dB) applied. If adjustments to the Digital Gain (dB) fader are required, follow these steps:
1. Set the Metering to Post-fader in the toolbar at the top of the workspace.
2. Adjust theDigital Gain (dB) fader as needed.
3. If using summing, use the Digital Gain (dB) faders to mix the channel levels.
Metering Options (Pre-fader and Post-fader)
Metering
There are two modes for monitoring, for input and output signals to be monitored separately.
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Analog gain adjustment
(affects pre-fader metering)
Pre-fader
Post-fader
Digital gain adjustment
(affects post-fader metering)
Pre-Fader (Analog Input Level)
Pre-fader metering displays the signal level before it reaches the digital gain fader, so that input signal levels can be optimized for each channel. Analog gain
adjustments affect the meter when set to pre-fader, but the digital gain adjustments do not.
Important: If the incoming signal is adjustable (wireless microphone systems, for example), make sure it is at the nominal level before adjusting the analog gain
on the Audio Network Interface.
Post-Fader (Digital Output Level)
Post-fader metering displays the signal level at the very end of the signal chain, which includes both the analog and digital gain. Use this setting to meter the
levels that are being sent over the Dante™ network.
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Logic and Control Systems
Logic Applications
The block connecter model variation (ANI4IN-BLOCK) features three logic signal connections. Logic signals are converted into Ethernet command strings and
sent and received by any device (such as an echo canceller or control system) that supports Ethernet command strings.
®
In this diagram, Shure MX392 and MX396 Microflex microphones are connected the audio network interface. The mute button on each microphone sends a
logic signal (switch) to mute other audio equipment. The microphones receive logic signals (LED) so that the microphone LED behavior reflects the state of the
entire audio system.
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ANI4IN Command Strings
Command Strings
The device is connected via Ethernet to a control system, such as AMX, Crestron or Extron.
Connection: Ethernet (TCP/IP; select “Client” in the AMX/Crestron program)
Port: 2202
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Conventions
The device has 4 types of strings:
GET
Finds the status of a parameter. After the AMX/Crestron sends a GET command, the ANI4IN responds with a REPORT string
SET
Changes the status of a parameter. After the AMX/Crestron sends a SET command, the ANI4IN will respond with a REPORT string to indicate the new value
of the parameter.
REP
When the ANI4IN receives a GET or SET command, it will reply with a REPORT command to indicate the status of the parameter. REPORT is also sent by the
ANI4IN when a parameter is changed on the ANI4IN or through the GUI.
SAMPLE
Used for metering audio levels.
All messages sent and received are ASCII. Note that the level indicators and gain indicators are also in ASCII
Most parameters will send a REPORT command when they change. Thus, it is not necessary to constantly query parameters. The ANI4IN will send a REPORT
command when any of these parameters change.
The character “x” in all of the following strings represents the channel of the ANI4IN and can be ASCII numbers 0 through 4 as in the following table
0
All channels
1 through 4
Individual channels
Command Strings (Common)
Get All
Where x is ASCII channel number: 0 through 4.
Use this command on first power on to update the
status of all parameters.
Command String:
< GET x ALL >
ANI4IN Response:
The ANI4IN responds with individual Report strings
for all parameters.
< REP ... >
Get Model Number
Command String:
< GET MODEL >
ANI4IN Response:
< REP MODEL {yyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyy} >
Where yyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyy is 32
characters of the model number. The ANI4IN
always responds with a 32 character model
number.
Get Serial Number
Command String:
< GET SERIAL_NUM >
ANI4IN Response:
< REP SERIAL_NUM {yyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyy} >
Where yyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyy is 32
characters of the serial number. The ANI4IN always
responds with a 32 character serial number.
Get Firmware Version
Command String:
< GET FW_VER >
ANI4IN Response:
< REP FW_VER {yyyyyyyyyyyyyyyyyy} >
Where yyyyyyyyyyyyyyyyyy is 18 characters. The
ANI4IN always responds with 18 characters.
Get Audio IP Address
Command String:
< GET IP_ADDR_NET_AUDIO_PRIMARY >
ANI4IN Response:
< REP IP_ADDR_NET_AUDIO_PRIMARY {yyyyyyyyyyyyyyy} >
Where yyyyyyyyyyyyyyy is a 15 digit IP address.
Get Audio Subnet Address
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Command String:
< GET IP_SUBNET_NET_AUDIO_PRIMARY >
ANI4IN Response:
< REP IP_SUBNET_NET_AUDIO_PRIMARY {yyyyyyyyyyyyyyy} >
Where yyyyyyyyyyyyyyy is a 15 digit subnet
address.
Get Audio Gateway Address
Command String:
< GET IP_GATEWAY_NET_AUDIO_PRIMARY >
ANI4IN Response:
< REP IP_GATEWAY_NET_AUDIO_PRIMARY {yyyyyyyyyyyyyyy} >
Where yyyyyyyyyyyyyyy is a 15 digit gateway
address.
Get Channel Name
Command String:
Where x is ASCII channel number: 0 through 4.
< GET x CHAN_NAME >
ANI4IN Response:
< REP x CHAN_NAME {yyyyyyyyyyyyyyyyyyyyyyyyyyyyyyy} >
Where yyyyyyyyyyyyyyyyyyyyyyyyyyyyyyy is 31
characters of the channel name. The ANI4IN
always responds with a 31 character name.
Get Device ID
Command String:
The Device ID command does not contain the x
channel character, as it is for the entire ANI4IN.
< GET DEVICE_ID >
ANI4IN Response:
< REP DEVICE_ID {yyyyyyyyyyyyyyyyyyyyyyyyyyyyyyy} >
Where yyyyyyyyyyyyyyyyyyyyyyyyyyyyyyy is 31
characters of the device ID. The ANI4IN always
responds with a 31 character device ID.
Get Preset
Command String:
< GET PRESET >
ANI4IN Response:
Where nn is the preset number 01-10.
< REP PRESET nn >
Set Preset
Command String:
Where nn is the preset number 1-10. (Leading zero
is optional when using the SET command).
< SET PRESET nn >
ANI4IN Response:
Where nn is the preset number 01-10.
< REP PRESET nn >
Get Preset Name
Command String:
< GET PRESET1 >
Send one of these commands to the ANI4IN.
< GET PRESET2 >
< GET PRESET3 >
etc
ANI4IN Response:
< REP PRESET1 {yyyyyyyyyyyyyyyyyyyyyyyyy} >
< REP PRESET2 {yyyyyyyyyyyyyyyyyyyyyyyyy} >
< REP PRESET3 {yyyyyyyyyyyyyyyyyyyyyyyyy} >
Whereyyyyyyyyyyyyyyyyyyyyyyyyy is 25 characters
of the preset name. The ANI4IN always responds
with a 25 character preset name
etc
Get Digital Audio Gain
Command String:
< GET x AUDIO_GAIN_HI_RES >
ANI4IN Response:
< REP x AUDIO_GAIN_HI_RES yyyy >
Where x is ASCII channel number: 0 through 4.
Where yyyy takes on the ASCII values of 0000 to
1400. yyyy is in steps of one-tenth of a dB.
Set Digital Audio Gain
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Command String:
< SET x AUDIO_GAIN_HI_RES yyyy >
ANI4IN Response:
< REP x AUDIO_GAIN_HI_RES yyyy >
Where x is ASCII channel number: 1 through 4.
Where yyyy takes on the ASCII values of 0000 to
1400. yyyy is in steps of one-tenth of a dB.
Where yyyy takes on the ASCII values of 0000 to
1400.
Increase Digital Audio Gain by n dB
Command String:
< SET x AUDIO_GAIN_HI_RES INC nn >
ANI4IN Response:
< REP x AUDIO_GAIN_HI_RES yyyy >
Where x is ASCII channel number: 1 through 4.
Where nn is the amount in one-tenth of a dB to
increase the gain. nn can be single digit ( n ),
double digit ( nn ), triple digit ( nnn ).
Where yyyy takes on the ASCII values of 0000 to
1400.
Decrease Digital Audio Gain by n dB
Command String:
< SET x AUDIO_GAIN_HI_RES DEC nn >
ANI4IN Response:
< REP x AUDIO_GAIN_HI_RES yyyy >
Where x is ASCII channel number: 1 through 4.
Where nn is the amount in one-tenth of a dB to
decrease the gain. nn can be single digit ( n ),
double digit ( nn ), triple digit ( nnn ).
Where yyyy takes on the ASCII values of 0000 to
1280.
Get Analog Audio Gain
Command String:
< GET x AUDIO_GAIN >
ANI4IN Response:
< REP x AUDIO_GAIN yy >
Where x is ASCII channel number: 0 through 4.
Where yy takes on the ASCII values of 00 to 51.
yy is in steps of three dB.
Set Analog Audio Gain
Command String:
< SET x AUDIO_GAIN yy >
Where x is ASCII channel number: 1 through 4.
Where yy takes on the ASCII values of 00 to 51.
yy is in steps of three dB.
ANI4IN Response:
< REP x AUDIO_GAIN yy >
Increment Analog Audio Gain
Command String:
< SET x AUDIO_GAIN INC yy >
ANI4IN Response:
< REP x AUDIO_GAIN yy >
Where x is channel and takes on values 0, 1-4
(ANI4IN). Where yy is in 3 dB step. The resulting
gain when the yy is applied is saturated to be in the
range allowed in the SET.
Where x is channel and takes on values 1-4
(ANI4IN). Where yy is in range of ANI4IN: 00 to
+51 dB in 3 dB steps
Decrement Analog Audio Gain
Command String:
< SET x AUDIO_GAIN DEC yy >
ANI4IN Response:
< REP x AUDIO_GAIN yy >
Where x is channel and takes on values 0, 1-4
(ANI4IN). Where yy is in 3 dB step. The resulting
gain when the yy is applied is saturated to be in the
range allowed in the SET.
Where x is channel and takes on values 1-4
(ANI4IN). Where yy is in range of ANI4IN: 00 to
+51 dB in 3 dB steps
Get Channel Audio Mute
Command String:
< GET x AUDIO_MUTE >
Where x is ASCII channel number: 0 through 4.
ANI4IN Response:
< REP x AUDIO_MUTE ON >
The ANI4IN will respond with one of these strings.
< REP x AUDIO_MUTE OFF >
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Mute Channel Audio
Command String:
< SET x AUDIO_MUTE ON >
ANI4IN Response:
< REP x AUDIO_MUTE ON >
Unmute Channel Audio
Command String:
< SET x AUDIO_MUTE OFF >
ANI4IN Response:
< REP x AUDIO_MUTE OFF >
Toggle Channel Audio Mute
Command String:
< SET x AUDIO_MUTE TOGGLE >
ANI4IN Response:
The ANI4IN will respond with one of these strings.
< REP x AUDIO_MUTE ON >
< REP x AUDIO_MUTE OFF >
Flash Lights on ANI4IN
Command String:
Send one of these commands to the ANI4IN. The
flash automatically turns off after 30 seconds.
< SET FLASH ON >
< SET FLASH OFF >
ANI4IN Response:
The ANI4IN will respond with one of these strings.
< REP FLASH ON >
< REP FLASH OFF >
Turn Metering On
Where sssss is the metering speed in milliseconds.
Setting sssss=0 turns metering off. Minimum setting
is 100 milliseconds. Metering is off by default.
Command String:
< SET METER_RATE sssss >
Where aaa, bbb, etc is the value of the audio level
received and is 000-060.
ANI4IN Response:
aaa = output 1
< REP METER_RATE sssss >
< SAMPLE aaa bbb ccc ddd >
bbb = output 2
ccc = output 3
ddd = output 4
Stop Metering
Command String:
A value of 00000 is also acceptable.
< SET METER_RATE 0 >
ANI4IN Response:
< REP METER_RATE 00000 >
Get Sig/Clip LED
Command String:
< GET x LED_COLOR_SIG_CLIP >
Where x is ASCII channel number: 0 through 4. It
is not necessary to continually send this command.
The ANI4IN will send a REPORT message
whenever the status changes.
ANI4IN Response:
< REP x LED_COLOR_SIG_CLIP OFF >
< REP x LED_COLOR_SIG_CLIP GREEN >
< REP x LED_COLOR_SIG_CLIP AMBER >
The ANI4IN will respond with one of these strings.
This matches the sig/clip LEDs on the front of the
ANI4IN.
< REP x LED_COLOR_SIG_CLIP RED >
Get LED Brightness
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Command String:
< GET LED_BRIGHTNESS >
Where n can take on the following values:
ANI4IN Response:
< REP LED_BRIGHTNESS n >
0 = LED disabled
1 = LED dim
2 = LED default
Set LED Brightness
Where n can take on the following values:
Command String:
< SET LED_BRIGHTNESS n >
0 = LED disabled
1 = LED dim
2 = LED default
ANI4IN Response:
< REP LED_BRIGHTNESS n >
Get Phantom Power Status
Command String:
< GET x PHANTOM_PWR_ENABLE >
ANI4IN Response:
< REP x PHANTOM_PWR_ENABLE ON >
The ANI4IN will respond with one of these strings.
< REP x PHANTOM_PWR_ENABLE OFF >
Turn on Phantom Power
Command String:
< SET x PHANTOM_PWR_ENABLE ON >
ANI4IN Response:
< REP x PHANTOM_PWR_ENABLE ON >
Turn off Phantom Power
Command String:
< SET x PHANTOM_PWR_ENABLE OFF >
ANI4IN Response:
< REP x PHANTOM_PWR_ENABLE OFF >
Get Mic Logic Switch Out
Command String:
< GET x HW_GATING_LOGIC >
Where x is ASCII channel number: 0 through 4. It
is not necessary to continually send this command.
The ANI4IN will send a REPORT message
whenever the status changes.
ANI4IN Response:
< REP x HW_GATING_LOGIC ON >
The ANI4IN will respond with one of these strings.
< REP x HW_GATING_LOGIC OFF >
Get Mic Logic LED In
Command String:
< GET x CHAN_LED_IN_STATE >
Where x is ASCII channel number: 0 through 4.
ANI4IN Response:
< REP x CHAN_LED_IN_STATE ON >
The ANI4IN will respond with one of these strings.
< REP x CHAN_LED_IN_STATE OFF >
Set Mic Logic LED In
Command String:
< SET x CHAN_LED_IN_STATE ON >
Send one of these commands to the ANI4IN.
< SET x CHAN_LED_IN_STATE OFF >
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ANI4IN Response:
< REP x CHAN_LED_IN_STATE ON >
The ANI4IN will respond with one of these strings.
< REP x CHAN_LED_IN_STATE OFF >
Reboot ANI4IN (firmware > v2.0)
Command String:
< SET REBOOT >
ANI4IN Response:
The ANI4IN does not send a response for this
command
Get Error Events (firmware > v2.0)
Command String:
< GET LAST_ERROR_EVENT >
ANI4IN Response:
< REP LAST_ERROR_EVENT {yyyyy} >
Where yyyy can be up to 128 characters.
Get Input Meter Mode (firmware > v2.0)
Command String:
< GET INPUT_METER_MODE >
ANI4IN Response:
< REP INPUT_METER_MODE PRE_FADER >
The ANI4IN will respond with one of these strings.
< REP INPUT_METER_MODE POST_FADER >
Set Input Meter Mode (firmware > v2.0)
Command String:
< SET INPUT_METER_MODE PRE_FADER >
Send one of these commands to the ANI4IN.
< SET INPUT_METER_MODE POST_FADER >
ANI4IN Response:
< REP INPUT_METER_MODE PRE_FADER >
The ANI4IN will respond with one of these strings.
< REP INPUT_METER_MODE POST_FADER >
Get Limiter Engaged (firmware > v2.0)
Command String:
< GET x LIMITER_ENGAGED >
Where x is ASCII channel number: 1 or 3. The
limiter is only engaged when using summing mode
ANI4IN Response:
< REP x LIMITER_ENGAGED ON >
The ANI4IN will respond with one of these strings.
< REP x LIMITER_ENGAGED OFF >
Get Audio Summing Mode (firmware > v2.0)
Command String:
< GET AUDIO_SUMMING_MODE >
ANI4IN Response:
< REP AUDIO_SUMMING_MODE OFF >
< REP AUDIO_SUMMING_MODE 1+2 >
< REP AUDIO_SUMMING_MODE 3+4 >
The ANI4IN will respond with one of these strings.
< REP AUDIO_SUMMING_MODE 1+2/3+4 >
< REP AUDIO_SUMMING_MODE 1+2+3+4 >
Set Audio Summing Mode (firmware > v2.0)
Command String:
< SET AUDIO_SUMMING_MODE OFF >
< SET AUDIO_SUMMING_MODE 1+2 >
< SET AUDIO_SUMMING_MODE 3+4 >
Send one of these commands to the ANI4IN.
< SET AUDIO_SUMMING_MODE 1+2/3+4 >
< SET AUDIO_SUMMING_MODE 1+2+3+4 >
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ANI4IN Response:
< REP AUDIO_SUMMING_MODE OFF >
< REP AUDIO_SUMMING_MODE 1+2 >
< REP AUDIO_SUMMING_MODE 3+4 >
The ANI4IN will respond with one of these strings.
< REP AUDIO_SUMMING_MODE 1+2/3+4 >
< REP AUDIO_SUMMING_MODE 1+2+3+4 >
Get RMS Audio Level (firmware > v2.0)
Command String:
< GET x AUDIO_IN_RMS_LVL >
ANI4IN Response:
< REP x AUDIO_IN_RMS_LVLnnn >
where x is channel number: 0: all channels ANI4IN:
1-4
where x is channel number defined in GET
command. where nnn is audio level in the range of
000-060
Get Peak Audio Level (firmware > v2.0)
Command String:
< GET x AUDIO_IN_PEAK_LVL >
ANI4IN Response:
< REP x AUDIO_IN_PEAK_LVLnnn >
where x is channel number: 0: all channels ANI4IN:
1-4
where x is channel number, defined in GET
command. where nnn is audio level in the range of
000-060
Get Network Audio Device Name
Command String:
< GET NA_DEVICE_NAME >
ANI4IN Response:
< REP NA_DEVICE_NAME {yyyyyyyyyyyyyyyyyyyyyyyyyyyyyyy} >
Where {yyyyyyyyyyyyyyyyyyyyyyyyyyyyyyy} is a
text string. Most devices allow device id to be up
to 31characters. Value is padded with spaces as
needed to ensure that 31 char are always reported.
Get Network Audio Channel Name
Command String:
Where xx is channel number All channels: 0
ANI4OUT: 1-4
< GET NA_CHAN_NAME >
ANI4IN Response:
< REP xx NA_CHAN_NAME {yyyyyyyyyyyyyyyyyyyyyyyyyyyyyyy}
Where xx is channel number. Where
{yyyyyyyyyyyyyyyyyyyyyyyyyyyyyyy} is 31 char
channel name. Value is padded with spaces as
needed to ensure that 31 char are always reported.
Get Control Network MAC Address
Command String:
< GET CONTROL_MAC_ADDR >
ANI4IN Response:
< REP CONTROL_ MAC_ADDR yy:yy:yy:yy:yy:yy >
Where yy:yy:yy:yy:yy:yy is a 17 char literal string
formatted as 6 octets, each separated by a colon.
Example: 00:0E:DD:FF:F1:63
Restore Default Settings (firmware > v2.0)
Command String:
Request the device to set itself to default settings.
< SET DEFAULT_SETTINGS >
ANI4IN Response:
where xx = 00 if restore is successful
< REP PRESET xx >
Get LED State
Command String:
< GET x LED_STATE_SIG_CLIP >
ANI4IN Response:
< REP x LED_STATE_SIG_CLIP yyy > >
where x is channel number that takes on values:
0: all channels 1-4: individual channel
where x is channel number that takes on values:
1-4: individual channel; Where yyy is current LED
state. Valid yyyvalues are: On - Steady, Flashing,
Off
Get PEQ Filter Enable (firmware > v2.0)
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Command String:
< GET xx PEQ yy >
Where xx is the PEQ block 01-04. Where yy is the
PEQ filter 01-04 within the block. 00 can be used
for all blocks or all filters.
ANI4IN Response:
< REP xx PEQ yy ON >
< REP xx PEQ yy OFF >
Set PEQ Filter Enable (firmware > v2.0)
Command String:
< SET xx PEQ yy ON >
Send one of these commands to the ANI4IN.
< SET xx PEQ yy OFF >
ANI4IN Response:
< REP xx PEQ yy ON >
< REP xx PEQ yy OFF >
Where xx is the PEQ block 01-04. Where yy is the
PEQ filter 01-04 within the block. 00 can be used
for all blocks or all filters.
Get Encryption Status (firmware > v2.0)
Command String:
Get device level encryption status;
< GET ENCRYPTION >
ANI4IN Response:
< REP ENCRYPTION ON >
Send one of these commands to the ANI4IN.
< REP ENCRYPTION OFF >
網路和 Dante
數字式音訊網路
Dantetm 數字音訊訊號是透過標準乙太網路傳輸的,使用標準的網路通訊協定工作。Dante 具有低延遲、緊密時鐘同步和高品質服務 (QoS) 等功能,從而為各種
Dante 裝置提供可靠的音訊廣播。Dante 音訊可以與 IT 和控制資料在相同網路中安全共存,也可以設定為使用私人網路絡。
適用於 Dante 網路的交換機建議
除了基本聯網要求以外,Dante 音訊網路應使用具有下列功能的千兆乙太網路交換機或路由器:
•
千兆乙太網路埠
•
可容納 4 個佇列的品質服務 (QoS)
•
採用嚴格優先順序的 Diffserv (DSCP) QoS
•
推薦使用:受管理客戶機能夠提供有關每個網路連接的詳細資訊(埠速度、錯誤技術、佔用頻寬)
Dante™ Transmit Flows
Dante Flows
This device supports up to two transmit flows and two receive flows. A single flow consists of up to four channels, through either a unicast or multicast
transmission.
•
A unicast flow is a point-to-point connection between two devices, supporting up to four channels per flow.
•
A multicast flow is a one-to-many transmission, which supports sending up to four channels to multiple receiving devices across the network.
Shure Device Applications
This device can connect with up to two Dante devices.
The Shure MXA310, ANI22, ANIUSB-MATRIX and ANI4IN support multicast transmission. This means that flows can transmit to multiple devices -- as many
as the network can support. If using unicast flows, each of these devices can connect with up to two Dante receiver devices.
The Shure ANI4OUT connects with up to two Dante transmitter devices.
QoS(服務品質)設定
QoS 設定
QoS 設定可將優先順序分配到網路上的特定資料包,確保流量龐大的較大網路上有可靠的音訊傳輸。此功能可用於大部分受管理的網路開關。雖然並非必要,
但仍建議分配 QoS 設定。
與網路管理員協調變更,避免中斷服務。
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若要指定 QoS 值,請開啟開關介面並使用下表指定 Dante™ 相關佇列值。
•
指定關鍵時間 PTP 事件的最高可能值(在此例中顯示為 4)。
•
在每個剩餘的資料包使用遞減優先順序值。
®
由 Audinate
提供的表格
優先順序
使用情況
DSCP 標籤
十六進位
十進位
二進位
高 (4)
關鍵時間 PTP 事件
CS7
0x38
56
111000
中 (3)
音訊、PTP
EF
0x2E
46
101110
低 (2)
(已保留)
CS1
0x08
8
001000
無 (1)
其他流量
BestEffort
0x00
0
000000
不同的製造商和開關類型可能會有不同的開關管理。請查詢製造商的產品指南,瞭解特定設定的詳細資訊。
如需更多關於 Dante 需求和網路的資訊,請至 www.audinate.com。
網路術語
PTP
DSCP
用來同步網路上的時鐘
用於層 3 QoS 優先順序的標準化識別方式
資料包橋接器
資料包橋接器可讓外部控制器從 Shure 裝置的控制介面取得 IP 資訊。若要存取資料包橋接器,外部控制器必須透過
Dante 介面上的 2203。
UDP* 將查詢資料包傳送至 Shure 裝置之
1. 透過至少 1 位元組的酬載傳送 UDP 資料包。
接受的最大酬載為 140 個位元組。任何內容都可被允許。
2. Shure 裝置將會使用與查詢資料包來源連接埠相同的目的地 UDP 連接埠,透過單點傳播 UDP 將回應資料包傳送至控制器。回應資料包的酬載依照此格式:
位元組
內容
0-3
IP 位址,即按照網路順序的 32 位元無符號整數
4-7
子網路遮罩,即按照網路順序的 32 位元無符號整數
8-13
MAC 位址,即 6 位元組的陣列
在一般網路上,Shure 裝置應於一秒之內回應。若沒有回應,請在驗證目的地 IP 位址和連接埠號後,嘗試再次傳送查詢。
*UDP 使用者資料包通訊協定
重要產品資訊
此設備用於專業音響場合。
不能將本設備直接連接到公眾互聯網。
EMC 符合環境 E2:商業和輕工業。測試是使用所提供和推薦的纜線類型完
成的。使用其它無遮罩的纜線類型可能會降低 EMC 效能。
未經舒爾公司明確許可的修改或改裝會使您操作本設備的授權失效。
ICES-003
CAN ICES-3 (B)/NMB-3(B)
符合美國聯邦通訊委員會法規第 15B 章:
請遵循您所在地的電池、包裝和電子廢棄物回收標準。
用戶資訊
本設備已經過測試,符合 FCC 法規第 15 章有關 B 類數位設備的限制。這些
限制專適用於在住宅內安裝此設備,能夠為用戶提供免受有害幹擾影響的足
夠保護。本設備產生、使用並可能發射無線電頻率能量,如果沒有按照要求
安裝和使用設備,可能會對無線電通訊產生有害幹擾。但是,並不保證本設
備在特定的安裝情況下不產生幹擾。如果本設備確實對收音機或電視機的接
收產生有害幹擾,可以通過關閉本設備然後再打開的方法來確定幹擾,建議
用戶通過以下一種或多種方法自行排除此幹擾。
2017/10/30
•
調整接收天線的方向或位置。
•
增大設備和接收機之間的距離。
•
將設備連接到與接收機不同的電路插座。
•
可以向經銷商或有經驗的無線電/電視工程師咨詢以尋求幫助。
可從以下地址獲得“CE 符合性聲明”:www.shure.com/europe/compliance
歐盟授權代表:
Shure Europe GmbH
歐洲、中東、非洲總部
部門:歐洲、中東、非洲批准部
Jakob-Dieffenbacher-Str.12
75031 Eppingen, Germany
電話:+49-7262-92 49 0
傳真:+49-7262-92 49 11 4
電子郵件:info@shure.de
本產品符合所有相關歐盟法規的基本要求,並且允許使用 CE 標誌。
可從舒爾公司或其任何歐洲代表處獲得“歐盟符合性聲明”。 有關聯繫資訊,
請存取 www.shure.com
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ANI4IN
Shure Incorporated
規格
輸入
ANI4IN-XLR
(4) XLR 接頭
ANI4IN-BLOCK
(4) XXXXERROR: [[ 6-pin block connector ]] DOES NOT EXISTXXXX
幻像電源
XXXXERROR: [[ selectable per channel ]] DOES NOT EXISTXXXX
+48 伏
邏輯連接 (XXXXERROR: [[ Block connectors only ]] DOES NOT EXISTXXXX)
作為乙太網路命令字串傳送
XXXXERROR: [[ LED ]] DOES NOT EXISTXXXX(+5 伏), 開關
極性
非倒相,任何輸入至任何輸出
輸出
(1) RJ45
電源要求
乙太網供電 (PoE), 0 類
功率消耗
10W, 最大值
重量
672 克 (1.5 磅)
外觀尺寸
高度 x 寬度 x 深度
4 x 14 x 12.8 釐米 (1.6 x 5.5 x 5.0 英寸)
控制應用程式
HTML5 基於瀏覽器
工作溫度範圍
−6.7°C (20°F) 到 40°C (104°F)
存儲溫度範圍
−29°C (-20°F) 到 74°C (165°F)
音訊
頻率響應
20 到 20,000 赫茲
Dante 數位輸出
頻道數
4
採樣率
48 千赫
位深度
24
延遲
Does not include Dante latency
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2017/10/30
ANI4IN
Shure Incorporated
0.35 毫秒
類比增益 範圍
可調節 3 dB 步進
51 dB
動態範圍 (類比至 Dante)
20 赫茲至 20 千赫, A-加權, 典型
113 dB
等效輸入噪聲
20 赫茲至 20 千赫, A-加權, 以 150Ω 終止輸入
類比 增益設定= +0 dB
-93 dBV
類比 增益設定= +27 dB
-119 dBV
類比 增益設定= +51 dB
-130 dBV
總諧波失真
@ 1 千赫, 0 dBV 輸入, 0 dB 類比增益
<0.05%
通用模式抑制比
均衡音源 150Ω @ 1 千赫
>70 dB
阻抗
5 千歐
輸入 設定
有源平衡
輸入 削波電平
類比 增益設定= +0 dB
+20 dBV
類比 增益設定= +27 dB
-7 dBV
類比 增益設定= +51 dB
-31 dBV
內置 數字訊號處理
每頻道
等化器 (4 波段參數), 靜音, Invert Polarity, 增益位置 (140 dB 範圍)
系統
音訊相加
連網
纜線要求
Cat 5e 或更高規格 (建議採用遮罩線)
IP 埠和協議
埠
TCP/UDP
協議
說明
工廠預設值
21
tcp
FTP
固件更新需要(否則關閉)
已關閉
22
tcp
SSH
不支援
已關閉
23
tcp
Telnet
標準控制台介面
已關閉
68
udp
DHCP
動態主機設定通訊協定
開啟
80*
tcp
HTTP
需要啟動嵌入式網頁伺服器
開啟
2017/10/30
31/32
ANI4IN
埠
Shure Incorporated
TCP/UDP
協議
說明
工廠預設值
427
tcp/udp
SLP†
裝置間通訊需要
開啟
443
tcp
HTTPS
不支援
已關閉
161
tcp
SNMP
不支援
已關閉
162
tcp
SNMP
不支援
已關閉
2202
tcp
ASCII
協力廠商控制字串需要
開啟
5353
udp
mDNS†
裝置發現需要
開啟
5568
udp
SDT†
裝置間通訊需要
開啟
8023
tcp
Telnet
調試控制台介面
密碼
8180*
tcp
HTML
需要用於 網頁應用程式
開啟
8427
udp
多播 SLP†
裝置間通訊需要
開啟
64000
tcp
Telnet
Shure 固件升級需要
開啟
埠
TCP/UDP
協議
說明
162
udp
SNMP
供 Dante 使用
[319-320]*
udp
PTP†
Dante 時鐘
2203
udp
Custom(定制)
需要用於資料包橋接器
4321,
14336-14600
udp
Dante
Dante 音訊
[4440, 4444,
4455]*
udp
Dante
Dante 音訊路由
5353
udp
mDNS†
供 Dante 使用
[8700-8706,
8800]*
udp
Dante
Dante 控制和監控
8751
udp
Dante
Dante 控制器
16000-65536
udp
Dante
供 Dante 使用
01
附件
提供的附件
硬體套件(XLR 型號)
90A29254
Hardware kit (block connector model)
90B29252
安裝支架(1/3 機架單元)
53A27742
選配附件和替換部件
19 英寸機架托盤
CRT1
0
*只有在 PC 或控制系統上開啟這些埠才能透過防火牆存取裝置。
1
†這些通訊協定需要多點傳播。確保您的網路已正確設定多播。
Shure Incorporated 5800 West Touhy Avenue Niles, IL 60714-4608 USA Phone: +1-847-600-2000 Email: info@shure.com
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