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---
Title: A316-8711-5.1解码无线音频套装制作说明
---
# A316-8711-5.1解码无线音频套装制作说明
# 一、设备准备
## 1.1、准备物件
1. A316demo板成品1个
2. 8711开发板成品7个1个用作TX连接A316底板6个用作RX连接音响
3. USB数据线可供电、传输数据7到8根
4. 供电USB6孔hub
5. 烧录的固件[点击获取](../../../assets/download/a316-8711-5.1make/Image_a316-8711.bin)
6. 烧录工具[点击获取MP_ImageTool_1_N-生产烧录工具](../../../assets/download/a316-8711-5.1make/MP_ImageTool_1_N-生产烧录工具.7z)
7. 修改MAC工具[点击获取AmebaDPlus_MP_tool_1V6(164576)](../../../assets/download/a316-8711-5.1make/AmebaDPlus_MP_tool_1V6(164576).7z)
8. MAC对照文件[点击获取](../../../assets/download/a316-8711-5.1make/rx-mac.txt)获取用于修改MAC地址的值
9. 杜邦线若干
![整体预览](../../../assets/images/a316-8711-5.1make/00.png){width=400}
# 二、烧录8711开发板所有TX与RX
烧录的固件[点击获取](../../../assets/download/a316-8711-5.1make/Image_a316-8711.bin)
烧录工具[点击获取MP_ImageTool_1_N-生产烧录工具](../../../assets/download/a316-8711-5.1make/MP_ImageTool_1_N-生产烧录工具.7z)
## 2.1 烧录8711DCM使用提供的烧录工具MP_ImageTool_1_N
进入烧录模式: 先按住 download 按键,再按住 chip 按键,一起松手。
<!-- 打印模式:按一下 chip 按键 -->
![img](../../../assets/images/a316-8711-5.1make/07.png){width=300}
选择"Chip Select" 重的最后一个
![img](../../../assets/images/a316-8711-5.1make/08.png){width=300}
选择固件, 固件保证是8711的就可以
![img](../../../assets/images/a316-8711-5.1make/09.png){width=300}
其他的参数基本默认,保持与图片上一致。支持多串口烧录 单独烧录时, 勾选一个即可
![img](../../../assets/images/a316-8711-5.1make/10.png){width=300}
确定好后, 点击"Download"
![img](../../../assets/images/a316-8711-5.1make/11.png){width=300}
# 三、修改RX设备MAC
修改MAC工具[点击获取](../../../assets/download/a316-8711-5.1make/AmebaDPlus_MP_tool_1V6(164576).7z)
[获取修改MAC的对照文件](../../../assets/download/a316-8711-5.1make/rx-mac.txt)修改时按照声道修改对应的MAC到设备中。不要修改为重复的。
## 3.1、手动修改8711模组MAC说明
修改的作为RX的8711连接在音响上的的MAC修改时WiFi MAC与蓝牙MAC都要修改
## 3.2、前提
先烧录好固件复位一下按CHIP键自动在MP模式下
![img](../../../assets/images/a316-8711-5.1make/12.png){width=300}
## 3.3、使用修改工具
修改MAC工具[点击获取AmebaDPlus_MP_tool_1V6(164576)](../../../assets/download/a316-8711-5.1make/AmebaDPlus_MP_tool_1V6(164576).7z)
MAC对照文件[点击获取](../../../assets/download/a316-8711-5.1make/rx-mac.txt)获取用于修改MAC地址的值
说明该工具一次只能修改一个RX先连接设备保证设备烧录好在MP模式再打开。
修改操作完成后,不能重复检查到设备,可以再重新连接设备再打开工具
1、先配置文件确保文件正确
![img](../../../assets/images/a316-8711-5.1make/13.png){width=300}![img](../../../assets/images/a316-8711-5.1make/14.png){width=300}
2、进入exe文件 保证下图选项一致
![img](../../../assets/images/a316-8711-5.1make/15.png){width=300}
3、进入ini文件用记事本打开查看如图位置参数要修改一致
![img](../../../assets/images/a316-8711-5.1make/16.png){width=300}
4、确认以上步骤后连接串口和设备确保有设备串口再打开下方工具
![img](../../../assets/images/a316-8711-5.1make/17.png){width=300}
5、打开工具后会有串口号自动识别点击“Refresh”
![img](../../../assets/images/a316-8711-5.1make/18.png){width=300}
6、进入“Efuse”点击“Read”这个按钮
![img](../../../assets/images/a316-8711-5.1make/19.png){width=300}
7、获取需要的mac号输入在“MAC Address”的输入框中
在“11”这一行中对应
![img](../../../assets/images/a316-8711-5.1make/20.png){width=300}
8、再修改“1B”这一行中的蓝牙MAC值是第7步骤中的MAC号加1
![img](../../../assets/images/a316-8711-5.1make/21.png){width=300}
9、修改之后依次点击“Update”、“Program”、“Save mapfile”
![img](../../../assets/images/a316-8711-5.1make/22.png){width=300}
10、保存之后让设备复位(打印模式:按一下 chip 按键)或断电一次再次点击“Read”
保证MAC修改成功建议贴上对应的标签区别声道类型
# 四、接线与连接设备
## 4.1、接线方式
### 4.1.1 8711作为TX连接A316底板接线说明
<!-- #### 实物展示
![img](../../../assets/images/a316-8711-5.1make/01.jpg){width=300} -->
#### 修改8711TX开发板的硬件
1. 去掉红色箭头所指的电阻
2. 在绿色箭头所指点位之间加上2.2k的电阻
![img](../../../assets/images/a316-8711-5.1make/02.png){width=300}
A316连接8711TX音频信号连接对照表格
| demo板背面 | 8711TX |
| ---------- | ---- |
| SCLK | DOUT |
| DTAT,0 | WS |
| LRCLK | DIN |
| X0D37 | PB22 |
| 12C-SCL | PB3 |
| 12C-SDA | MCLK |
| GND | GND |
| 5.5V | 5.5V |
A316连接8711TX音频信号接线图示意
以上解码器底板是反过来的,这里按照当前展示画面示意
按照表格所示完成接线后, 最后的5.5V也接上,可以同时供电。 如果供电不足TX单独供电也可以。
![img](../../../assets/images/a316-8711-5.1make/03.png){width=300}
### 4.1.2 8711作为RX连接音响接线说明
#### 音响电源接线没有正反,如同所示
![img](../../../assets/images/a316-8711-5.1make/04.png){width=300}
#### 8711RX板子上短接方式如图用两根杜邦线分别短接如图所示
![img](../../../assets/images/a316-8711-5.1make/05.png){width=300}
#### 连接好后用热熔胶固定
![img](../../../assets/images/a316-8711-5.1make/06.png){width=300}
## 4.2、连接设备
烧录好之后让所有8711开发板逐个连接串口发送AT+OTACLEAR命令再复位一次。让设备进入Normal普通模式
同时让TX与RX通电后它们会自动配对。 第一次配对周围只能有当前这一套设备
每个8711RX都打印下方log 表示连接成
![连接成功](../../../assets/images/a316-8711-5.1make/23.png){width=300}

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# HIDYoy使用说明
## 1.打开新的HID工具
![01.PNG](../../assets/images/HIDusdImg/01.PNG){width="500" }
## 2.需要烧录好使用的固件和安装驱动才能识别到下图中的设备
点击一下“Rescan”选择红框中的名称
点击“Disconnect”连接设备
![02.PNG](../../assets/images/HIDusdImg/02.PNG){width="500" }
## 3.如下图的方式发送命令。
在之前提供的命令前按照图中示例填写0x1f 开头
![03.PNG](../../assets/images/HIDusdImg/03.PNG){width="500" }
## 4.点击“Send OUT Report” 发送命令
发送前请先设置好第一个图中的数据31
![04.PNG](../../assets/images/HIDusdImg/04-1.PNG){width="300" }
![04.PNG](../../assets/images/HIDusdImg/04-2.PNG){width="300" }
## 5.等待0.5秒后点击“Read IN Reports”
![05.PNG](../../assets/images/HIDusdImg/05.png){width="500" }

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# OTA-升级8730-8711
## 插上dangle和8711,保证它们连接成功; OTA 升级rx 时,会升级所有连接上的rx
![01.PNG](../../assets/images/OTA8711-8730/01.PNG){width="500" }
![01.PNG](../../assets/images/OTA8711-8730/02.PNG){width="500" }
1. 选择正确的 Realtek HID 设备 - 序号
2. 输入OTA 升级bin文件的路径 - D:HID\ota_all.bin(示例)
3. 选择设备升级类型 - 序号
## 升级时可以打开串口查看进度. Rx 大约需要30秒;
## 升级完成后,在log查看窗口中输入命令(会自动复位, 可不输入下面的两个命令)
1. AT+OTACLEAR切换为Normal模式
2. reboot复位
!!! note "提示"
AT+OTARECOVER切换为MP模式-产测模式)
## 检查升级固件版本和时间与ota固件的分钟时间相同,与生成的系统和时间有关
![01.PNG](../../assets/images/OTA8711-8730/03.PNG){width="500" }

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# RTL8711DCM 演示板接线说明
### 1.无线音频演板控制介绍
(1) 无线2.1音频演示板控制示意图
![图片](../../assets/images/speaker/11-08/dome/d-1.PNG)
2无线5.1音频演示板控制示意图
![图片](../../assets/images/speaker/11-08/dome/d-2.PNG)
3无线7.1.2音频演示板控制示意图
![图片](../../assets/images/speaker/11-08/dome/d-3.PNG)
### 2. 无线音频演板接线介绍
#### 1) 无线音频TX 演示板 I2S、I2C 控制引脚示意图
![图片](../../assets/images/speaker/11-08/dome/4.png)
#### 2) DSP 与 无线音频TX 演示板 I2S、I2C 接线示意图
![图片](../../assets/images/speaker/11-08/dome/d-5.png)
1DSP 与 无线音频TX 演示板 2.1 声道 I2S 接线说明
DSP 作为 Slave 时需要的I2S 信号线: I2S_BCLK 、 I2S_LRCLK、 I2S_DATA0、 I2S_DATA1、 GND
DSP 作为 Master 时需要的I2S 信号线:
I2S_MCLK、 I2S_BCLK 、 I2S_LRCLK 、I2S_DATA0、 I2S_DATA1 、GND
2DSP 与 无线音频TX 演示板 5.1 声道 I2S 接线说明
DSP 作为 Slave 时需要的I2S 信号线:
I2S_BCLK 、 I2S_LRCLK、 I2S_DATA0、 I2S_DATA1、I2S_DATA2、 GND
DSP 作为 Master 时需要的I2S 信号线:
I2S_MCLK、 I2S_BCLK 、 I2S_LRCLK 、I2S_DATA0、 I2S_DATA1 、I2S_DATA2、GND
3DSP 与 无线音频TX 演示板 7.1.2 声道 I2S 接线说明
DSP 作为 Slave 时需要的I2S 信号线:
I2S_BCLK 、 I2S_LRCLK、 I2S_DATA0、 I2S_DATA1、I2S_DATA2、I2S_DATA3、
I2S_EX_LRCLK、I2S_EX_BCLK、I2S_EX_DATA0、 GND
DSP 作为 Master 时需要的I2S 信号线:
I2S_MCLK、 I2S_BCLK 、 I2S_LRCLK 、I2S_DATA0、 I2S_DATA1 、I2S_DATA2、I2S_DATA3、
I2S_EX_LRCLK、I2S_EX_BCLK、I2S_EX_DATA0、 GND
#### (3) 无线音频RX 演示板 接线示意图
![图片](../../assets/images/speaker/11-08/dome/d-6.png)
![图片](../../assets/images/speaker/11-08/dome/d-7.png)

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# RTL8711DCM 模组设计说明
### 1. 无线音频模组控制介绍
(1) 无线2.1音频模组控制示意图
![图片](../../assets/images/speaker/11-08/model/m-1.PNG)
2无线5.1音频模组控制示意图
![图片](../../assets/images/speaker/11-08/model/m-2.PNG)
3无线7.1.2音频模组控制示意图
![图片](../../assets/images/speaker/11-08/model/m-3.PNG)
### 2. RTL8711DCM 模组PIN 脚图
![图片](../../assets/images/speaker/11-08/model/m-4.PNG)
### 3. RTL8711DCM 模组硬件线路控制示意图
#### (1) RTL8711DCM 模组TX**I2S 硬件控制图**
![图片](../../assets/images/speaker/11-08/model/m-5.png)
##### 1DSP 与 RTL8711DCM 模组TX 声道 I2S 接线说明
```note
DSP 作为 Slave 时需要的I2S 信号线:
I2S_BCLK 、 I2S_LRCLK、 I2S_DATA0、 I2S_DATA1、 GND
```
```note
DSP 作为 Master 时需要的I2S 信号线:
I2S_MCLK、 I2S_BCLK 、 I2S_LRCLK 、I2S_DATA0、 I2S_DATA1 、GND
```
##### 2DSP 与 RTL8711DCM 模组TX 5.1 声道 I2S 接线说明
```note
DSP 作为 Slave 时需要的I2S 信号线:
I2S_BCLK 、 I2S_LRCLK、 I2S_DATA0、 I2S_DATA1、I2S_DATA2、 GND
```
```note
DSP 作为 Master 时需要的I2S 信号线:
I2S_MCLK、 I2S_BCLK 、 I2S_LRCLK 、I2S_DATA0、 I2S_DATA1 、I2S_DATA2、GND
```
##### 3DSP 与 无线音频 RTL8711DCM 模组TX7.1.2 声道 I2S 接线说明
```note
DSP 作为 Slave 时需要的I2S 信号线:
I2S_BCLK 、 I2S_LRCLK、 I2S_DATA0、 I2S_DATA1、I2S_DATA2、I2S_DATA3、
I2S_EX_LRCLK、I2S_EX_BCLK、I2S_EX_DATA0、 GND
```
```note
DSP 作为 Master 时需要的I2S 信号线:
I2S_MCLK、 I2S_BCLK 、 I2S_LRCLK 、I2S_DATA0、 I2S_DATA1 、I2S_DATA2、I2S_DATA3、
I2S_EX_LRCLK、I2S_EX_BCLK、I2S_EX_DATA0、 GND
```
#### (2) RTL8711DCM 模组TX硬件 **TDM 控制图**
![图片](../../assets/images/speaker/11-08/model/m-tdm.png)
##### 1DSP 与 RTL8711DCM 模组TX 声道 I2S 接线说明
```note
DSP 作为 Slave 时需要的I2S 信号线:
I2S_BCLK 、 I2S_LRCLK、 I2S_DATA0、 GND
```
```note
DSP 作为 Master 时需要的I2S 信号线:
I2S_MCLK、 I2S_BCLK 、 I2S_LRCLK 、I2S_DATA0 、GND
```
##### 2DSP 与 RTL8711DCM 模组TX 5.1 声道 I2S 接线说明
```note
DSP 作为 Slave 时需要的I2S 信号线:
I2S_BCLK 、 I2S_LRCLK、 I2S_DATA0、 GND
```
```note
DSP 作为 Master 时需要的I2S 信号线:
I2S_MCLK、 I2S_BCLK 、 I2S_LRCLK 、I2S_DATA0、 GND
```
##### 3DSP 与 无线音频 RTL8711DCM 模组TX7.1.2 声道 I2S 接线说明
```note
DSP 作为 Slave 时需要的I2S 信号线:
I2S_BCLK 、 I2S_LRCLK、 I2S_DATA0、 I2S_EX_LRCLK、
I2S_EX_BCLK、I2S_EX_DATA0、 GND
```
```note
DSP 作为 Master 时需要的I2S 信号线:
I2S_MCLK、 I2S_BCLK 、 I2S_LRCLK 、I2S_DATA0、
I2S_EX_LRCLK、I2S_EX_BCLK、I2S_EX_DATA0、 GND
```
[//]: # (#### &#40;3&#41; RTL8711DCM 模组TX硬件 **uart 控制图**)
[//]: # (![图片]&#40;../../assets/images/speaker/11-08/model/m-uart.png&#41;)
#### (3) RTL8711DCM 模组RX硬件控制图
![图片](../../assets/images/speaker/11-08/model/m-6.png)

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---
title: A316-1926V1 USB HiFi解码器专用XU316模组规格书
---
# A316-1926V1 USB HiFi解码器专用XU316模组规格书
--8<-- "common/phaten_xmos_support_img.md"
<div class="result" markdown>
![A316-1926V1 USB多路音频解码器模组](../../../assets/images/hifi_audio/a316_1926v1.png "A316-1926V1 USB多路音频解码器模组"){align=right width=250}
## 1、产品介绍
### 1.1 产品描述
- A316-1926V1是⼀款 USB多路高清音频解码器模组。模组使⽤XMOS的XU316-1024-QF60BC24芯⽚集成了高精度DC-DC芯片输出1.8V0.9V电压给XU316 。模组集成了48.152MHz和49.152MHz有源晶体满足不同高清音频采用率要求。模组内置XU316所需的24MHz晶体以及16Mbit Flash用来存储音频固件。
- A316-1926V1提供兼容全速和⾼速的USB2.0接⼝的USB AUdiO声卡设备在USB 2.0异步模式中能够⽀持⾼达768 KHz的采样率。
- 配合不同的固件A316-1926V1可以处理高达6路SPDIF高清音频以及2路I2S高清音频信号满足多种高清音频解码器的需求。
</div>
### 1.2 产品特性
- **USB接口特性**
- USB 2.0 (Full-speed and High-speed)
- USB Audio Class 1.0
- USB Audio Class 2.0
- USB Firmware Upgrade (DFU)
- USB Midi Device Class 1.0
- **支持音频协议**
- I2S/TDM
- S/PDIF(光钎/同轴)
- Direct Stream Digital(DSD)
- ADAT
- **支持音频采用率**
- PCM: 44.1kHz, 48kHz, 88.2kHz, 96kHz, 176.4kHz, 192kHz, 352.8kHz, 384kHz705.6kHz768KHz
- DSD: DSD 64 ,DSD 128, DSD 256, DSD 512
- DOP: DOP 64 ,DOP 128DOP256
- **系统兼容**
- UAC 2.0协议 ,支持ASIO ,支持多种操作系统如Windows , Linux ,Android, MAC OS 和IOS等
### 1.3 产品框图
<figure markdown="span">
![A316-1926V1框图](../../../assets/images/hifi_audio/a316_1926v1_diagram.png "A316-1926V1框图"){width="600"}
<figcaption></figcaption>
</figure>
### 1.4 规格描述
| 规格项 | 描述
| :------------------------| :----------
| 产品名称 | A316-1926V1
| 产品描述 | USB多路高清音频解码器模组
| 封装类型 | SMT邮票孔
| 环保说明 | 所有硬件部件完全符合欧盟RoHS指令
### 1.5 绝对电⽓参数
| 参数 | 最小值 | 最大值 | 单位 |
|:------------------------------|:------:|:------:|:----:|
| 存储温度 | -40 | 125 | ℃ |
| 供电电压 | -0.5 | 3.63 | V |
| 静电释放电压(⼈体模型)TAMB-25℃ | -2 | 2 | KV |
| 静电释放电压(机器模型)TAMB-25℃ | -500 | 500 | V |
### 1.6 正常工作条件
| 功能 | 最小值 | 典型值 | 最大值 | 单位 |
|:---------|:------: |:------:|:------:|:----:|
| 工作温度 | 0 | - | 70 | ℃ |
| 工作电压 | 3 | 3.3 | 3.6 | V |
### 1.7 工作电流
|⼯作状态 | 平均值 | 峰值 | 单位 |
|:---------|:------:|:------:|:----:|
| Active@3.3V | 120 | 200 | mA |
## 2、管脚定义
### 2.1 管脚布局
<figure markdown="span">
![A316-1926V1管脚图](../../../assets/images/hifi_audio/a316_1926v1_module_pin_define.png "A316-1926V1管脚图"){width=400}
<figcaption></figcaption>
</figure>
### 2.2 管脚描述
| 模组管脚序号 | 名称 | 类型 | 功能 |
| :------: | :------: | :------: | :------ |
| 1 | GND | P | 模组地 |
| 2 | 3V3 | P | 模组3.3V供电 |
| 3 | X1D11 | I/O | 多功能GPIO具体功能参考PortMap |
| 4 | X1D10 | I/O | 多功能GPIO具体功能参考PortMap |
| 5 | X1D09 | I/O | 多功能GPIO具体功能参考PortMap |
| 6 | X1D01 | I/O | 多功能GPIO具体功能参考PortMap |
| 7 | X1D00 | I/O | 多功能GPIO具体功能参考PortMap |
| 8 | X0D11 | I/O | 多功能GPIO具体功能参考PortMap |
| 9 | X0D00 | I/O | 多功能GPIO具体功能参考PortMap |
| 10 | X0D31 | I/O | 多功能GPIO具体功能参考PortMap |
| 11 | X0D30 | I/O | 多功能GPIO具体功能参考PortMap |
| 12 | X1D34 | I/O | 多功能GPIO具体功能参考PortMap |
| 13 | X0D43 | I/O | 多功能GPIO具体功能参考PortMap |
| 14 | X0D41 | I/O | 多功能GPIO具体功能参考PortMap |
| 15 | X0D42 | I/O | 多功能GPIO具体功能参考PortMap |
| 16 | MCLK | I/O | 49.152/45.1584MHz 时钟输出 |
| 17 | X0D40 | I/O | 多功能GPIO具体功能参考PortMap |
| 18 | X0D38 | I/O | 多功能GPIO具体功能参考PortMap |
| 19 | X0D37 | I/O | 多功能GPIO具体功能参考PortMap |
| 20 | X0D36 | I/O | 多功能GPIO具体功能参考PortMap |
| 21 | X0D35 | I/O | 多功能GPIO具体功能参考PortMap |
| 22 | X0D29 | I/O | 多功能GPIO具体功能参考PortMap |
| 23 | X1D22 | I/O | 多功能GPIO具体功能参考PortMap |
| 24 | X1D19 | I/O | 多功能GPIO具体功能参考PortMap |
| 25 | X1D16 | I/O | 多功能GPIO具体功能参考PortMap |
| 26 | USB_DP | I/O | USB_DP |
| 27 | USB_DM | I/O | USB_DM |
| 28 | X1D18 | I/O | 多功能GPIO具体功能参考PortMap |
| 29 | X1D17 | I/O | 多功能GPIO具体功能参考PortMap |
| 30 | X1D13 | I/O | 多功能GPIO具体功能参考PortMap |
## 3、模组尺⼨和PCB封装图形
### 3.1 模组尺⼨
PCB尺⼨19.5±0.3(L)X26±0.3(W)X0.8±0.1(H)
### 3.2 模组封装图
<figure markdown="span">
![A316-1926V1封装图](../../../assets/images/hifi_audio/a316_1926v1_module_size.png "A316-1926V1封装图"){width=400}
<figcaption></figcaption>
</figure>
## 4、产品包装信息
托盘+外箱包装
## 5、推荐回流焊炉温曲线
<figure markdown="span">
![推荐回流焊炉温曲线](../../../assets/images/hifi_audio/module_smt_temp.png "推荐回流焊炉温曲线"){width=600}
<figcaption></figcaption>
</figure>

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---
title: A316-1926V1 USB Multichannel High-Definition Audio Decoder Module Datasheet
---
# A316-1926V1 USB Multichannel High-Definition Audio Decoder Module Datasheet
--8<-- "common/phaten_xmos_support_img.md"
<div class="result" markdown>
![A316-1926V1 USB Multichannel Audio Decoder Module](/assets/images/hifi_audio/a316_1926v1.png "A316-1926V1 USB Multichannel Audio Decoder Module"){align=right width=250}
## 1. Product Introduction
### 1.1 Product Description
- The A316-1926V1 is a USB multichannel high-definition audio decoder module. The module uses the XMOS XU316-1024-QF60BC24 chip and integrates a high-precision DC-DC chip, providing 1.8V and 0.9V voltages to the XU316. The module includes active crystals at 48.152MHz and 49.152MHz to meet different high-definition audio sampling rate requirements. It also comes with a 24MHz crystal and a 16Mbit Flash for storing audio firmware required by the XU316.
- The A316-1926V1 offers a USB 2.0 interface compatible with full-speed and high-speed USB Audio device, supporting up to 768 KHz sampling rates in USB 2.0 asynchronous mode.
- With various firmware versions, the A316-1926V1 can process up to 6 channels of SPDIF high-definition audio, as well as 2 channels of I2S high-definition audio signals, meeting the needs of various high-definition audio decoders.
</div>
### 1.2 Product Features
- **USB Interface Characteristics**
- USB 2.0 (Full-speed and High-speed)
- USB Audio Class 1.0
- USB Audio Class 2.0
- USB Firmware Upgrade (DFU)
- USB Midi Device Class 1.0
- **Supported Audio Protocols**
- I2S/TDM
- S/PDIF (Optical/Coaxial)
- Direct Stream Digital (DSD)
- ADAT
- **Supported Audio Sampling Rates**
- PCM: 44.1kHz, 48kHz, 88.2kHz, 96kHz, 176.4kHz, 192kHz, 352.8kHz, 384kHz, 705.6kHz, 768KHz
- DSD: DSD 64, DSD 128, DSD 256, DSD 512
- DOP: DOP 64, DOP 128, DOP 256
- **System Compatibility**
- UAC 2.0 protocol, supports ASIO, compatible with various operating systems including Windows, Linux, Android, MAC OS, and iOS, etc.
### 1.3 Product Block Diagram
<figure markdown="span">
![A316-1926V1 Block Diagram](/assets/images/hifi_audio/a316_1926v1_diagram.png "A316-1926V1 Block Diagram"){width="600"}
<figcaption></figcaption>
</figure>
### 1.4 Specifications Description
| Specification Item | Description
| :------------------------| :----------
| Product Name | A316-1926V1
| Product Description | USB Multichannel High-Definition Audio Decoder Module
| Package Type | SMT Stamp Hole
| Environmental Compliance | All hardware components fully comply with the EU RoHS Directive
### 1.5 Absolute Electrical Parameters
| Parameter | Minimum | Maximum | Unit |
|:------------------------------|:------:|:------:|:----:|
| Storage Temperature | -40 | 125 | ℃ |
| Supply Voltage | -0.5 | 3.63 | V |
| Electrostatic Discharge (HBM) at TAMB-25℃ | -2 | 2 | KV |
| Electrostatic Discharge (MM) at TAMB-25℃ | -500 | 500 | V |
### 1.6 Normal Operating Conditions
| Function | Minimum | Typical | Maximum | Unit |
|:-----------|:------: |:------:|:------:|:----:|
| Operating Temperature | 0 | - | 70 | ℃ |
| Operating Voltage | 3 | 3.3 | 3.6 | V |
### 1.7 Operating Current
|Operating State | Average | Peak | Unit |
|:----------------|:------:|:------:|:----:|
| Active@3.3V | 120 | 200 | mA |
## 2. Pin Definitions
### 2.1 Pin Layout
<figure markdown="span">
![A316-1926V1 Pin Diagram](/assets/images/hifi_audio/a316_1926v1_module_pin_define.png "A316-1926V1 Pin Diagram"){width=400}
<figcaption></figcaption>
</figure>
### 2.2 Pin Description
| Module Pin Number | Name | Type | Function |
| :---------------: | :---: | :---: | :------ |
| 1 | GND | P | Module Ground |
| 2 | 3V3 | P | Module 3.3V Power Supply |
| 3 | X1D11 | I/O | Multifunctional GPIO, see PortMap for specific functions |
| 4 | X1D10 | I/O | Multifunctional GPIO, see PortMap for specific functions |
| 5 | X1D09 | I/O | Multifunctional GPIO, see PortMap for specific functions |
| 6 | X1D01 | I/O | Multifunctional GPIO, see PortMap for specific functions |
| 7 | X1D00 | I/O | Multifunctional GPIO, see PortMap for specific functions |
| 8 | X0D11 | I/O | Multifunctional GPIO, see PortMap for specific functions |
| 9 | X0D00 | I/O | Multifunctional GPIO, see PortMap for specific functions |
| 10 | X0D31 | I/O | Multifunctional GPIO, see PortMap for specific functions |
| 11 | X0D30 | I/O | Multifunctional GPIO, see PortMap for specific functions |
| 12 | X1D34 | I/O | Multifunctional GPIO, see PortMap for specific functions |
| 13 | X0D43 | I/O | Multifunctional GPIO, see PortMap for specific functions |
| 14 | X0D41 | I/O | Multifunctional GPIO, see PortMap for specific functions |
| 15 | X0D42 | I/O | Multifunctional GPIO, see PortMap for specific functions |
| 16 | MCLK | I/O | 49.152/45.1584MHz Clock Output |
| 17 | X0D40 | I/O | Multifunctional GPIO, see PortMap for specific functions |
| 18 | X0D38 | I/O | Multifunctional GPIO, see PortMap for specific functions |
| 19 | X0D37 | I/O | Multifunctional GPIO, see PortMap for specific functions |
| 20 | X0D36 | I/O | Multifunctional GPIO, see PortMap for specific functions |
| 21 | X0D35 | I/O | Multifunctional GPIO, see PortMap for specific functions |
| 22 | X0D29 | I/O | Multifunctional GPIO, see PortMap for specific functions |
| 23 | X1D22 | I/O | Multifunctional GPIO, see PortMap for specific functions |
| 24 | X1D19 | I/O | Multifunctional GPIO, see PortMap for specific functions |
| 25 | X1D16 | I/O | Multifunctional GPIO, see PortMap for specific functions |
| 26 | USB_DP | I/O | USB Data Plus |
| 27 | USB_DM | I/O | USB Data Minus |
| 28 | X1D18 | I/O | Multifunctional GPIO, see PortMap for specific functions |
| 29 | X1D17 | I/O | Multifunctional GPIO, see PortMap for specific functions |
| 30 | X1D13 | I/O | Multifunctional GPIO, see PortMap for specific functions |
## 3. Module Dimensions and PCB Packaging Graphics
### 3.1 Module Dimensions
PCB Dimensions: 19.5±0.3(L)X26±0.3(W)X0.8±0.1(H)
### 3.2 Module Packaging Graphics
<figure markdown="span">
![A316-1926V1 Packaging Graphic](/assets/images/hifi_audio/a316_1926v1_module_size.png "A316-1926V1 Packaging Graphic"){width=400}
<figcaption></figcaption>
</figure>
## 4. Product Packaging Information
Tray + Outer Box Packaging
## 5. Recommended Reflow Soldering Temperature Profile
<figure markdown="span">
![Recommended Reflow Soldering Temperature Profile](/assets/images/hifi_audio/module_smt_temp.png "Recommended Reflow Soldering Temperature Profile"){width=600}
<figcaption></figcaption>
</figure>

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# 8711 模组烧录工具说明
### 准备工作:
烧录工具:[下载链接](../../assets/download/A316/ImageTool.zip)
进入烧录模式:
![图片 1](../../assets/images/speaker/11-08/model/8711模组烧录方式.jpg)
![8711 模组图片.png](../../assets/images/speaker/11-08/model/8711%20模组图片.png)
### 一、开始使用,下载好工具后,找到如图所示文件,双击打开
![图片 1](../../assets/images/speaker/shaolu-2.png)
### 二、打开软件后点击“File” 再点击“Open” 选取文件
![图片 1](../../assets/images/speaker/shaolu-3.png)
### 三、选取文件“AmebaDplus FreeRTOS NOR.rdev” 为第三个,是烧录 8711 的固件
第 6 个是烧录 8730 的固件按需求选用
![图片 1](../../assets/images/speaker/shaolu-4.png)
### 四、选择好配置文件,再选择需要烧录的固件,要保证名称一致
![图片 1](../../assets/images/speaker/shaolu-5.png)
### 五、按照图上所示,选择串口、波特率等信息(正常会自动选择),核对后, 点击下方的“Dowload”开始烧录
![图片 1](../../assets/images/speaker/shaolu-6.png)
### 六、烧录之后,无异常。查看串口设备打印,打印 log 正常 表示烧录成功
![图片 1](../../assets/images/speaker/shaolu-7.png)

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# 8711 系列烧录工具说明
### 准备工作:
烧录工具:[下载链接](../../assets/download/A316/ImageTool.zip)
进入烧录模式: 先按住 download 按键,再按住 chip 按键。串口打印\0。然后一起放手
打印模式:按一下 chip 按键
![图片 1](../../assets/images/speaker/shaolu-1.png)
### 一、开始使用,下载好工具后,找到如图所示文件,双击打开
![图片 1](../../assets/images/speaker/shaolu-2.png)
### 二、打开软件后点击“File” 再点击“Open” 选取文件
![图片 1](../../assets/images/speaker/shaolu-3.png)
### 三、选取文件“AmebaDplus FreeRTOS NOR.rdev” 为第三个,是烧录 8711 的固件
第 6 个是烧录 8730 的固件按需求选用
![图片 1](../../assets/images/speaker/shaolu-4.png)
### 四、选择好配置文件,再选择需要烧录的固件,要保证名称一致
![图片 1](../../assets/images/speaker/shaolu-5.png)
### 五、按照图上所示,选择串口、波特率等信息(正常会自动选择),核对后, 点击下方的“Dowload”开始烧录
![图片 1](../../assets/images/speaker/shaolu-6.png)
### 六、烧录之后,无异常。查看串口设备打印,打印 log 正常 表示烧录成功
![图片 1](../../assets/images/speaker/shaolu-7.png)

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### PC扬声器声道设置说明
前提,如果使用我们提供的 demo 板,和音频解码模组。如果您没有自己的驱动。需要先安装对应的驱动程序
[下载地址](../../assets/download/A316/驱动1.zip)
#### 1当接好线之后把其它 rx 端接入音响设备,把 tx 端的 demo 板接入电脑或手机
正常来说通电时tx端会和 rx 端自动配对
是电脑的话,可能需要有所配置 打开运行Win+R输入【control】命令按【确定或回车】在控制面板中选择【声音】点击进入
![控制板面.jpg](../../assets/images/speaker/控制板面.jpg)
#### 2配置输出采样率与位深度
在【声音】设置中 选择【播放】下的扬声器,鼠标右击,点击【属性】 再选择高级
![位深度采样率.jpg](../../assets/images/speaker/位深度采样率.jpg)
#### 3配置扬声器
同样在鼠标右击扬声器,点击【配置扬声器】
![配置扬声器.jpg](../../assets/images/speaker/配置扬声器.jpg)
#### 4选择需要的声道, 请根据实际需要的音响环境选择
![选声道.jpg](../../assets/images/speaker/选声道.jpg)
#### 5所有线材电源连接成功后可将RTL8711DCM PCB 上的复位键,全部按一次
![pcb.jpg](../../assets/images/speaker/pcb.jpg)

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---
title: A316-Mini-1 USB Module Specification
---
# A316-Mini-1 USB Module Specification
--8<-- "common/phaten_xmos_support_img.md"
<div class="result" markdown>
![A316-Mini-1 USB Module](../../../assets/images/hifi_audio/a316_mini.png "A316-Mini-1 USB Module"){align=right width=250}
## 1. Product Introduction
### 1.1 Product Description
- The A316-Mini-1 is a USB module utilizing XMOS XU316-1024-QF60BC24 chip. The module integrates a 24MHz crystal required by the XU316 and a 16Mbit Flash for storing firmware.
- The A316-Mini-1 provides a USB 2.0 interface compatible with both full-speed and high-speed standards. In USB 2.0 asynchronous mode, it supports sampling rates up to 768 kHz.
- With different firmware configurations, the A316-Mini-1 can process up to 6 channels of SPDIF audio and 2 channels of I2S audio signals, meeting various application requirements.
</div>
### 1.2 Product Features
- **USB Interface Features**
- USB 2.0 (Full-speed and High-speed)
- USB Audio Class 1.0
- USB Audio Class 2.0
- USB Firmware Upgrade (DFU)
- USB Midi Device Class 1.0
- **Supported Audio Protocols**
- I2S/TDM
- S/PDIF (Optical/Coaxial)
- Direct Stream Digital (DSD)
- ADAT
- **Supported Sampling Rates**
- PCM: 44.1kHz, 48kHz, 88.2kHz, 96kHz, 176.4kHz, 192kHz, 352.8kHz, 384kHz, 705.6kHz, 768KHz
- DSD: DSD 64, DSD 128, DSD 256, DSD 512
- DOP: DOP 64, DOP 128, DOP 256
- **System Compatibility**
- UAC 2.0 protocol, ASIO support, compatible with multiple operating systems including Windows, Linux, Android, macOS, and iOS
### 1.3 Product Block Diagram
<figure markdown="span">
![A316-Mini-1 Block Diagram](../../../assets/images/hifi_audio/a316_mini_diagram.png "A316-Mini-1 Block Diagram"){width="600"}
<figcaption></figcaption>
</figure>
### 1.4 Specifications
| Item | Description
| :------------------------| :----------
| Product Name | A316-Mini-1
| Product Description | USB Module
| Package Type | SMT LGA
| Environmental Compliance | All hardware components fully comply with EU RoHS directive
### 1.5 Absolute Maximum Ratings
| Parameter | Min | Max | Unit |
|:---------------------------------------|:----:|:-----:|:----:|
| Storage Temperature | -40 | 125 | °C |
| Supply Voltage | -0.5 | 3.63 | V |
| 1.8V Supply Voltage | -0.5 | 1.98 | V |
| 0.9V Supply Voltage | -0.5 | 1.05 | V |
| ESD Voltage (Human Body Model) TAMB-25°C| -2 | 2 | kV |
| ESD Voltage (Machine Model) TAMB-25°C | -500 | 500 | V |
### 1.6 Operating Conditions
| Parameter | Min | Typical | Max | Unit |
|:-------------|:----:|:-------:|:----:|:----:|
| Operating Temperature | 0 | - | 70 | °C |
| Operating Voltage | 3.0 | 3.3 | 3.6 | V |
| 1.8V Operating Voltage | 1.62 | 1.80 | 1.98 | V |
| 0.9V Operating Voltage | 0.855| 0.90 | 0.945| V |
### 1.7 Operating Current
| Operating State | Average | Peak | Unit |
|:---------------|:-------:|:----:|:----:|
| Active@3.3V | 7 | 25 | mA |
| Active@1.8V | 30 | 36 | mA |
| Active@0.9V | 300 | 1000 | mA |
## 2. Pin Definitions
### 2.1 Pin Layout
<figure markdown="span">
![A316-Mini-1 Pin Layout](../../../assets/images/hifi_audio/a316_pin.png "A316-Mini-1 Pin Layout"){width=400}
<figcaption></figcaption>
</figure>
### 2.2 Pin Descriptions
| Module Pin No. | Name | Type | Function |
| :------------: | :----: | :----: | :------- |
| 1 | 3.3V | P | 3.3V Power Supply |
| 2 | X1D13 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 3 | X1D16 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 4 | GND | P | Ground |
| 5 | X1D17 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 6 | X1D18 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 7 | X1D19 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 8 | X1D22 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 9 | X0D29 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 10 | X0D35 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 11 | X0D36 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 12 | X0D37 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 13 | X0D38 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 14 | X0D40 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 15 | X0D39 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 16 | X0D42 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 17 | X0D41 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 18 | X0D43 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 19 | X1D34 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 20 | GND | P | Ground |
| 21 | X0D30 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 22 | X0D31 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 23 | X0D32 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 24 | X0D32 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 25 | GND | P | Ground |
| 26 | GND | P | Ground |
| 27 | GND | P | Ground |
| 28 | X0D00 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 29 | X0D11 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 30 | X1D00 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 31 | X1D01 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 32 | GND | P | Ground |
| 33 | X1D09 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 34 | X1D10 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 35 | X1D11 | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 36 | GND | P | Ground |
| 37 | GND | P | Ground |
| 38 | TDI | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 39 | TDO | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 40 | TMS | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 41 | TCK | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 42 | RST_N | I/O | Multifunction GPIO, refer to PortMap for specific functions |
| 43 | 1.8V | P | 1.8V Power Supply |
| 44 | GND | P | Ground |
| 45 | USB_DM | I/O | USB_DM |
| 46 | USB_DP | I/O | USB_DP |
| 47 | GND | P | Ground |
| 48 | 0.9V | P | 0.9V Power Supply |
| 49 | GND | P | Ground |
| 50 | GND | P | Ground |
| 51 | GND | P | Ground |
| 52 | GND | P | Ground |
## 3. Module Dimensions and PCB Package
### 3.1 Module Dimensions
PCB Dimensions: 13±0.1(L)×13±0.1(W)×0.8±0.1(H) mm
### 3.2 Package Drawing
<figure markdown="span">
![A316-Mini-1 Package Drawing](../../../assets/images/hifi_audio/a316_size.png "A316-Mini-1 Package Drawing"){width=400}
<figcaption></figcaption>
</figure>
## 4. Product Packaging Information
Tray + Outer Box Packaging
## 5. Recommended Reflow Soldering Temperature Profile
<figure markdown="span">
![Recommended Reflow Soldering Temperature Profile](../../../assets/images/hifi_audio/module_smt_temp.png "Recommended Reflow Soldering Temperature Profile"){width=600}
<figcaption></figcaption>
</figure>

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---
title: PBAX316-90108MV1 USB Desktop High-Definition Audio Decoder Evaluation Kit
---
# PBAX316-90108MV1 USB Desktop High-Definition Audio Decoder Evaluation Kit
--8<-- "common/phaten_xmos_support_img.md"
## Evaluation Board Materials:
| Name | Description
| :-----------------------------| :----------
| [Datasheet](./硬件规格书.md) |
| [User Guide](./使用说明.md) |
| [Evaluation Kit Audio Specification](./测试指标.md) |
| [Evaluation Kit Schematic](/assets/download/pbax316_90108mv1/pbax316_90108mv1_sch_v1.0.pdf) |
| [Evaluation Kit BOM](/assets/download/pbax316_90108mv1/PBAX316-90108V1_PCBA.xlsx) |
| [Evaluation Kit Component Specifications](/assets/download/pbax316_90108mv1/元器件规格书.zip) |

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---
title: PBAX316-90108MV1 USB Desktop Hi-Fi Audio Decoder Evaluation Kit User Guide
---
# PBAX316-90108MV1 USB Desktop Hi-Fi Audio Decoder Evaluation Kit User Guide
<div class="grid cards" markdown>
- ![Phaten](/assets/images/logos/phaen-long.png "Phaten"){width="200"} ![XMOS](/assets/images/logos/xmos-long.png "XMOS"){width="200"} **Joint Support** <br> [XMOS Official Website: www.xmos.com](https://www.xmos.com) <br> [Phaten Audio Solution Official Website: www.phaten-audio.com](https://www.phaten-audio.com)
</div>
## First Use
After receiving the evaluation board, users can install and configure the environment according to the following steps for evaluation.
### Driver Installation
The evaluation board supports USB UAC 2.0 for audio playback. Windows 10 build 1809 and later versions have native USB UAC 2.0 drivers. However, the native driver can only play audio with a maximum sampling rate of 384kHz. To evaluate 768kHz sampling rate and DSD format, you need to install a third-party driver.
<div class="result" markdown>
![Windows USB Audio Control Panel](/assets/images/hifi_audio/usb_audio_ control_ panel.png "Windows USB Audio Control Panel"){align=right width=300}
#### Windows system:
1. Download the evaluation driver [Thesycon-USB-Audio-Class-2_0-Evaluation-Driver-for-Windows_5_58_0.zip](/assets/download/Thesycon-USB-Audio-Class-2_0-Evaluation-Driver-for-Windows_5_58_0.zip). After decompression, directly run XMOS_TUSBAudio_eval_v5.58.0_2023-06-29_setup.exe, and install it by default.
2. Connect the evaluation board and the Windows computer through a USB cable. Click the TUSB icon in the lower-right corner. If the USB Audio Device is displayed as shown in the right image, it means the driver is running normally.
3. The evaluation board is enumerated as USB 2.0 Audio Devices (UAC2.0) in the Device Manager.
4. Set USB 2.0 Audio Devices (UAC2.0) as the default device in the Playback tab.
#### Linux system:
No need to install drivers
#### Mac system:
No need to install drivers
#### Mobile:
No need to install drivers
</div>
## Audio Evaluation
There are three indicator lights on the evaluation board. USB, OPT, and COX represent USB, optical fiber, and coaxial mode respectively.
- Press the MODE button briefly, the USB indicator light is on, and USB audio is played.
- Press the MODE button briefly, the OPT indicator light is on, and OPT audio is played.
- Press the MODE button briefly, the COX indicator light is on, and COX audio is played.

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---
title: PBAX316-90108MV1 USB Desktop High-Definition Audio Decoder Evaluation Audiio Specification
---
# PBAX316-90108MV1 USB Desktop High-Definition Audio Decoder Evaluation Audiio Specification
<div class="grid cards" markdown>
- ![Phaten](/assets/images/logos/phaen-long.png "Phaten"){width="200"} ![XMOS](/assets/images/logos/xmos-long.png "XMOS"){width="200"} **Joint Support** <br> [XMOS Official Website: www.xmos.com](https://www.xmos.com) <br> [Phaten Audio Solution Official Website: www.phaten-audio.com](https://www.phaten-audio.com)
</div>
## 1, USB INPUT 1KHz RCAOUT Test Metrics
### THD+N Ratio
![USB INPUT 1KHz RCAOUT THD+N Ratio](/assets/images/hifi_audio/pbax316_90108mv1_usb_thdn.png)
### Frequency Response
![USB INPUT 1KHz RCAOUT Frequency Response](/assets/images/hifi_audio/pbax316_90108mv1_usb_fre_res.png)
### THD+N Level
![USB INPUT 1KHz RCAOUT THD+N Level](/assets/images/hifi_audio/pbax316_90108mv1_usb_thdn_level.png)
### SNR
![USB INPUT 1KHz RCAOUT SIGNAL-NOISE RATIO](/assets/images/hifi_audio/pbax316_90108mv1_usb_snr.png)
### Signal-to-Noise and Distortion Ratio
![USB INPUT 1KHz RCAOUT SIGNAL-TO-NOISE AND DISTORTION RATIO](/assets/images/hifi_audio/pbax316_90108mv1_usb_snad.png)
### CROSSTALK
![USB INPUT 1KHz RCAOUT CROSSTALK](/assets/images/hifi_audio/pbax316_90108mv1_usb_cross.png)
### Noise Level
![USB INPUT 1KHz RCAOUT Noise Level](/assets/images/hifi_audio/pbax316_90108mv1_usb_nl.png)
## 2, S/PDIF INPUT 1KHz RCAOUT Test Metrics
### THD+N Ratio
![S/PDIF INPUT 1KHz RCAOUT THD+N Ratio](/assets/images/hifi_audio/pbax316_90108mv1_spdif_thdn.png)
### Frequency Response
![S/PDIF INPUT 1KHz RCAOUT Frequency Response](/assets/images/hifi_audio/pbax316_90108mv1_spdif_fre_res.png)
### THD+N Level
![USB INPUT 1KHz RCAOUT THD+N Level](/assets/images/hifi_audio/pbax316_90108mv1_spdif_thdn_level.png)
### SNR
![S/PDIF INPUT 1KHz RCAOUT SIGNAL-NOISE RATIO](/assets/images/hifi_audio/pbax316_90108mv1_spdif_snr.png)
### Signal-to-Noise and Distortion Ratio
![S/PDIF INPUT 1KHz RCAOUT SIGNAL-TO-NOISE AND DISTORTION RATIO](/assets/images/hifi_audio/pbax316_90108mv1_spdif_snad.png)
### CROSSTALK
![S/PDIF INPUT 1KHz RCAOUT CROSSTALK](/assets/images/hifi_audio/pbax316_90108mv1_spdif_cross.png)
### Noise Level
![S/PDIF INPUT 1KHz RCAOUT Noise Level](/assets/images/hifi_audio/pbax316_90108mv1_spdif_nl.png)

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---
title: PBAX316-90108MV1 USB Desktop High-Definition Audio Decoder Evaluation Kit
---
# PBAX316-90108MV1 USB Desktop High-Definition Audio Decoder Evaluation Kit
<div class="grid cards" markdown>
- ![Phaten](/assets/images/logos/phaen-long.png "Phaten"){width="200"} ![XMOS](/assets/images/logos/xmos-long.png "XMOS"){width="200"} **Joint Support** <br> [XMOS Official Website: www.xmos.com](https://www.xmos.com) <br> [Phaten Audio Solution Official Website: www.phaten-audio.com](https://www.phaten-audio.com)
</div>
<div class="result" markdown>
![PBAX316-90108MV1 USB Desktop High-Definition Audio Decoder Evaluation Kit](/assets/images/hifi_audio/PBAX316-90108MV1.png "PBAX316-90108MV1 USB Desktop High-Definition Audio Decoder Evaluation Kit"){align=right width=250}
## 1、Product Introduction
### 1.1 Product Description
PBAX316-90108MV1 is an evaluation Kit designed specifically for USB desktop high-definition audio decoders, which uses Phaten's A316_1926V1 XU316 module. The evaluation Kit supports USB, optical, coaxial, and I2S audio signal source input. Different audio input sources can be selected by pressing buttons. The evaluation Kit uses AKM4493SEQ DAC to output analog audio.
</div>
### 1.2 Evaluation Kit Features
- **Supported Audio Interfaces**
- USB 2.0 (Full-speed and High-speed)
- I2S/TDM
- S/PDIF (Optical/Coaxial)
- Direct Stream Digital(DSD)
- **Supported Audio Formats**
- PCM: 44.1kHz, 48kHz, 88.2kHz, 96kHz, 176.4kHz, 192kHz, 352.8kHz, 384kHz705.6kHz768KHz
- DSD: DSD 64 ,DSD 128, DSD 256, DSD 512
- DOP: DOP 64 ,DOP 128DOP256
- **System Compatibility**
- Supports UAC 2.0 protocol, ASIO, and various operating systems such as Windows, Linux, Android, MAC OS, and IOS, etc.
### 1.3 Evaluation Kit Hardware Interfaces
<figure markdown="span">
![PBAX316-90108MV1 Hardware Interface Indication](/assets/images/hifi_audio/PBAX316-90108MV1_mark.png "PBAX316-90108MV1 Hardware Interface Indication"){width="600"}
<figcaption></figcaption>
</figure>
| Interface | Function
| :-------------------| :----------
| Type-C | Connects to PC/mobile USB for USB audio input and 5V power supply
| S/PDIF | Connects to optical/coaxial digital audio input
| I2S | I2S input
| Output | RCA left and right channel analog audio output
### 1.4 Key Audio Parameters of the Evaluation Kit
**USB Audio Input, Matched with DAC AKM4493**
| Parameter | Value
| :------------------------| :----------:
| THD+N RATIO | 108.232dB
| SIGNAL-NOISE RATIO | 120.012dB
| RCAOUT Crosstalk(10K) | 111.851dB
**S/PDIF Audio Input, Matched with DAC AKM4493**
| Parameter | Value
| :------------------------| :----------:
| THD+N RATIO | 108.380dB
| SIGNAL-NOISE RATIO | 118.483dB
| RCAOUT Crosstalk(10K) | 115.302dB
### 1.5 Normal Working Conditions
| Function | Minimum Value | Maximum Value | Unit |
|:---------|:------:|:------:|:----:|
| Working Temperature | 0 | 70 | ℃ |
| Working Voltage | 4.5 | 5 | V |
### 1.8 Working Current
|Working State | Average Value | Peak Value | Unit |
|:---------|:------:|:------:|:----:|
| @5V | 250 | 300 | mA |

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---
title: XMOS XK-AUDIO-316-MC-AB USB Multi-Channel Audio Evaluation Kit
---
# XMOS XK-AUDIO-316-MC-AB USB Multi-Channel Audio Evaluation Kit
--8<-- "common/phaten_xmos_support_img.md"
<div class="result" markdown>
![XMOS XK-AUDIO-316-MC-AB USB Multi-Channel Audio Evaluation Development Board](/assets/images/xk_audio_316_mc_ab/xk_audio_316_mc_ab_block.png "XMOS XK-AUDIO-316-MC-AB USB Multi-Channel Audio Evaluation Development Board"){align=right width=300}
## Evaluation Board Introduction
The xcore.ai multi-channel audio platform offers a scalable and flexible hardware and software solution suitable for a range of consumer and professional audio products. This multi-channel audio platform is based on an xcore.ai multicore processor; XU316-1024-TQ128-C24, which includes a high-speed USB 2.0 PHY, flexible General Purpose Inputs/Outputs (GPIO), and 16 logical cores, providing up to 2400 MIPS of deterministic processing capability. The xcore technology guarantees that the hardware response time always ensures the lowest latency and perfect bitstream for audio streams from the USB host. XMOS XTC development tools support rapid customization to achieve product differentiation.
</div>
## Highlight Features
<div class="grid cards" markdown>
- **USB Compatibility**
- High-speed USB 2.0 compliant device with low loopback latency.
- **Lossless Audio Transmission**
- Supports up to 192kHz, 32-bit high-resolution audio playback via PCM.
- Flexible clock architecture supports various synchronous configurations, ensuring low jitter, high-quality audio capture, and playback.
- **Rapid Development Cycle**
- Provides source code reference software and integrated development tool suite, can be deployed royalty-free, quickly realizing product launch.
- **Flexible I/O interface**
- Supports up to 8 or more synchronous multi-channel playback and recording via the host interface.
- Predictable, high-response processing power, customizable according to specific product requirements.
</div>
## Detailed Parameters and Materials of the Evaluation Board
For detailed parameters and materials of the official evaluation board, please refer to [XK-AUDIO-316-MC-AB Detailed Information](https://www.xmos.com/xk-audio-316-mc-ab)