Difference between revisions of "WCH CH9325"

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[http://www.wch.cn/ WCH], also known as Nanjing Qin Heng Electronics, makes a series of microcontrollers, PCI interface chips, and USB interface chips.
[http://www.wch.cn/ WCH], also known as Nanjing Qin Heng Electronics, makes a series of microcontrollers, PCI interface chips, and USB interface chips.


The CH9325 is a USB interface chip, which converts data received via UART to USB and vice versa. The chip presents a HID (Human Interface Device) USB profile, in an effort to not require USB driver installation: this is typically handled by the OS kernel. An example of the profile, in Linux 'lsusb' output format, is [[UNI-T UT325/Info|here]].
The CH9325 is a USB interface chip, which converts data received via UART to USB/HID and vice versa. The chip presents a HID (Human Interface Device) USB profile, in an effort to not require USB driver installation: this is typically handled by the OS kernel. Examples of the profile are included in the [[Device_cables/Info#UNI-T_UT-D04|lsusb of the UNI-T UT-D04 DMM cable]] or the [[UNI-T UT325/Info|lsusb of the UNI-T UT325 temperature logger]].


The chip runs off of a 12MHz oscillator.
The chip runs off of a 12MHz oscillator.
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== Pin layout ==
== Pin layout ==


{{chip_16pin|1=RESET|2=UART TX|3=UART RX|6=USB D+|7=USB D-|8=GND|9=OSC-|10=OSC+|15=VCC +5V}}
{{chip_16pin|1=RESET|2=UART TX|3=UART RX|4=TX ACT|5=VCC select|6=USB D+|7=USB D-|8=GND|9=OSC-|10=OSC+|15=VCC +5V}}
 
Pin 4 goes high while transmitting data on UART TX (i.e. USB -> device). This is possibly intended for an activity LED.
 
Assuming pin 5 (VCC select) has the same function as other WCH devices (such as CH341), tying it to GND via a decoupling capacitor selects +5V external power operation. Tying the pin to 3.3V selects 3.3V external power.


== Protocol ==
== Protocol ==
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==== Chip configuration ====
==== Chip configuration ====


USB packets sent to endpoint 0 are intercepted by the chip, and serve to configure it. A confguration packet consists of 5 bytes:
USB packets sent to endpoint 0 are intercepted by the chip, and serve to configure it. A configuration packet consists of (at least) 2 bytes:


{| border="0" style="font-size: smaller; width: 90%;" class="alternategrey sigroktable"
{| border="0" style="font-size: smaller; width: 90%;" class="alternategrey sigroktable"
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| UART baudrate, in little-endian order. For example, <code>60 09</code> = 0x0960 = 2400. Supported baudrates are 2400, 4800, 9600 and 19200; setting any other rate defaults to 2400 instead.
| UART baudrate, in little-endian order. For example, <code>60 09</code> = 0x0960 = 2400. Supported baudrates are 2400, 4800, 9600 and 19200; setting any other rate defaults to 2400 instead.
|-
|-
| 3
| 3, 4
|
| uncertain purpose, probably parity and stop bits specs, often omitted, or 0x00 is sent
|-
| 4
|  
|-
|-
| 5
| 5
|  
| number of data bits (encoded, values 0-3 translate to 5-8 data bits)
|}
|}
Applications can get away with just sending the first two bytes.
Vendor software has been observed sending 3 more bytes (00 00 03), but these seem to be not strictly required.
Even though the chip defaults to 2400 baud, that is not the default on startup: the baudrate setting command MUST still be sent.


==== USB encapsulation ====
==== USB encapsulation ====
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Extracting the UART stream on the other side of the USB bus simply entails the reverse process: for every received packet, extract the payload according to the length byte (nibble).
Extracting the UART stream on the other side of the USB bus simply entails the reverse process: for every received packet, extract the payload according to the length byte (nibble).
Transmit data is communicated in similar ways: The first byte contains the number of payload bytes which follow (without ''0xf0'' added as is the case for receive data). Up to 7 payload bytes follow. The complete block consists of exactly 8 bytes, with ''0x00'' padded when necessary.

Latest revision as of 17:01, 15 June 2019

WCH CH9325 in the UNI-T UT-D04 DMM cable.
WCH CH9325 in the UNI-T UT325 temperature logger.

WCH, also known as Nanjing Qin Heng Electronics, makes a series of microcontrollers, PCI interface chips, and USB interface chips.

The CH9325 is a USB interface chip, which converts data received via UART to USB/HID and vice versa. The chip presents a HID (Human Interface Device) USB profile, in an effort to not require USB driver installation: this is typically handled by the OS kernel. Examples of the profile are included in the lsusb of the UNI-T UT-D04 DMM cable or the lsusb of the UNI-T UT325 temperature logger.

The chip runs off of a 12MHz oscillator.

Pin layout

RESET 1-   O -16
UART TX 2- -15 VCC +5V
UART RX 3- -14
TX ACT 4- -13
VCC select 5- -12
USB D+ 6- -11
USB D- 7- -10 OSC+
GND 8- -9 OSC-

Pin 4 goes high while transmitting data on UART TX (i.e. USB -> device). This is possibly intended for an activity LED.

Assuming pin 5 (VCC select) has the same function as other WCH devices (such as CH341), tying it to GND via a decoupling capacitor selects +5V external power operation. Tying the pin to 3.3V selects 3.3V external power.

Protocol

Chip configuration

USB packets sent to endpoint 0 are intercepted by the chip, and serve to configure it. A configuration packet consists of (at least) 2 bytes:

Byte Description
1-2 UART baudrate, in little-endian order. For example, 60 09 = 0x0960 = 2400. Supported baudrates are 2400, 4800, 9600 and 19200; setting any other rate defaults to 2400 instead.
3, 4 uncertain purpose, probably parity and stop bits specs, often omitted, or 0x00 is sent
5 number of data bits (encoded, values 0-3 translate to 5-8 data bits)

Applications can get away with just sending the first two bytes. Vendor software has been observed sending 3 more bytes (00 00 03), but these seem to be not strictly required.

Even though the chip defaults to 2400 baud, that is not the default on startup: the baudrate setting command MUST still be sent.

USB encapsulation

The chip stores bytes received via the UART RX pin into a buffer. It transfers the contents of the buffer to a HID packet at regular intervals (maximum 12ms). The HID packets are always 8 bytes long, with the first byte containing the number of payload bytes. This is encoded as 0xf0 + length. The next 7 bytes contain the payload, padded with zeroes. Thus, even if no data is ever received on the UART, the chip always sends at least one packet every 12ms containing:

f0 00 00 00 00 00 00 00

Here's a packet with 2 bytes payload:

f2 35 41 00 00 00 00 00

Extracting the UART stream on the other side of the USB bus simply entails the reverse process: for every received packet, extract the payload according to the length byte (nibble).

Transmit data is communicated in similar ways: The first byte contains the number of payload bytes which follow (without 0xf0 added as is the case for receive data). Up to 7 payload bytes follow. The complete block consists of exactly 8 bytes, with 0x00 padded when necessary.