Ruida
Introduction
Ruida controllers are laser cutter controller boards with several beefier features. They are built for lasering, and run a download and execute scheme. They are natively supported by RDWorks (which is free) and supported by Lightburn (Proprietary, $80). They have a control panel that can often display the program to be run and perform jogging operations. There have been a number of reverse engineering and supporting operations.
Ruida controllers can control 4 axises. These are X, Y, Z, and U.
Models
There are several Ruida Models which cause slightly different interactions.
644XG
Default Model.
644XS
Replying 0 to a DA0004 request causes a communication error.
320
Replying 0 to a DA0004 request causes a communication error.
633X
Replying 0 to a DA0004 request causes a communication error.
634XG
Uses an altered form of the scrambling algorithm.
The xor magic value is 0x11
654XG
Replying 0 to a DA0004 request causes a communication error.
Protocol
The laser can be controlled through a few different means. It accepts USB files in an .rd format, it can be set to listen for UDP packets on port 50200, and can directly transfer files via USB to the device.
UDP
The device listens on port 50200 on the laser, and sends from port 40200.
The payload is an RD file with the same payload, command, and syntax. It also has the same swizzling so an RD file for a 634XG will be swizzled with 0x11 and not 0x88 for the magic number.
UDP packets requires an extra 16 bit checksum for each packet. Since UDP can lose packets it requires an ACK reply after every packet. The checksum doesn't require any special operations it's literally just the lower 16 bits sum of the value of each byte in the packet. Beyond those differences the remaining elements are Ruida commands which follow a fairly well understood structure.
The first two bytes of any UDP packet are big endian checksum. This response to this is either 0xCC Checksum match or 0xCF checksum fail. On fail the packet must be resent. Too long of a time will cause a time out.
In UDP the packet size is limited to 1474 bytes. However most modern versions simply cut at around 1000 bytes. These cuts are permitted to occur mid-command but modernly do not do that. They cut at command boundaries.
There is no header, arbitration, or handshaking. Anything that is interpreted as correct will execute.
The timeout is about 4 seconds. It expects a reply ACK packet by then.
The first chunk will retry other chunks will simply fail.
The payload has an EOF command.
USB
There are two methods of USB transfer, direct transfer with a USB device between the machine and computer, and through the use of a thumb drive.
When plugged in to USB it uses USB 1.1 at full speed. The connected communications chip is the FT245R chip. This uses a standard communications serial port.
- 19200 bps
- 8 data bits
- No parity
- 1 stop bit
- hardware flow control [1]
Swizzling
All packet data is lightly swizzled at the byte level. The checksum is calculated preswizzle.
644XG - Magic = 0x88 644XS - Magic = 0x88 320 - Magic = 0x88 633X - Magic = 0x88 634XG - Magic = 0x11 654XG - Magic = 0x88 RDL9635 - Magic = 0x38 [2]
Swizzling:
b ^= (b >> 7) & 0xFF b ^= (b << 7) & 0xFF b ^= (b >> 7) & 0xFF b ^= magic b = (b + 1) & 0xFF
Unswizzling:
b = (b - 1) & 0xFF b ^= magic b ^= (b >> 7) & 0xFF b ^= (b << 7) & 0xFF b ^= (b >> 7) & 0xFF return b
The general algorithm swaps the first and last digit, xors the data and adds 1. The reverse unswizzling requires subtracting one, xor, and swapping the first and last digit. In the presented code the swap is done there with an xor swap.
Ruida Encoding
The UDP and USB modes perform some jogging and realtime controls and data queries but mostly send .rd files.
Structure
The basic structure of an .rd file is a header and body.
Header
The header has two main sections, the main header, and the layer headers.
The main header sets the origin point, and the bounding boxes for the entire project. And some unknown information.
--> d812 --> f0 --> f10200 --> d800 --> e70600000000000000000000 (0.000000,0.000000) --> e70300000000000000000000 (MinX: 0.000000 MinY: 0.000000) --> e70700000e6c780000125c66 (MaxX: 9579.527559 MaxY: 12078.346457) --> e75000000000000000000000 (MinX: 0.000000 MinY: 0.000000) --> e75100000e6c780000125c66 (MaxX: 9579.527559 MaxY: 12078.346457) --> e7040001000100000000000000000000 (Process Repeat) --> e70500 (unknown)
Each layer header corresponds to the Work information in RDWorks, this conveys the information of the speed to travel at, the min power, several other power values, the color of that layer.
These are all layer 0:
--> c904000000060d20 (Speed=100.000000) --> c631001175 (Power 1 min=13.995361%) --> c632001704 (Power 1 min=13.995361%) --> c641002632 (Power 2 min=29.992676%) --> c642002632 (Power 2 max=29.992676%) --> c635002632 (Power 3 min=29.992676%) --> c636002632 (Power 3 max=29.992676%) --> c637002632 (Power 4 min =29.992676%) --> c638002632 (Power 4 max=29.992676%) --> ca06000000000000 (Color=#000000) --> ca410000 (Unknown) --> e7520000000000000000000000 (MinX: 0.000000 MinY: 0.000000) --> e7530000000532320000066a08 (MinX: 3479.133858 MaxY: 4404.724409) --> e7610000000000000000000000 (MinX: 0.000000 MinY: 0.000000) --> e7620000000532320000066a08 (MaxX: 3479.133858 MaxY: 4404.724409)
Body
The body intros with a series of prestart commands and configuration elements before starting. the actual layers.
--> f10300000000000000000000 F1 03 (0.000000,0.000000) --> f10000 F1 00 (0) --> f10100 F1 01 (0) --> f20000 F2 00 (0) --> f20100 F2 01 (0) --> f202052a391c41046a150820 F2 02 (?) --> f20300000000000000000000 F2 03 (0.000000,0.000000) --> f20400000e6c730000125c68 F2 04 (9579.330709,12078.425197) --> f20600000000000000000000 F2 06 (0.000000,0.000000) --> f20700 F2 07 (0) --> f205000100017f7f71130d0000125c68 F2 05 --> ea00 EA (0) --> e76000 E7 60 (0) --> e71300000000000000000000 E7 13 (0.000000,0.000000) --> e71700000e6c730000125c68 E7 17 (9579.330709,12078.425197) --> e72300000000000000000000 E7 23 (0.000000,0.000000) --> e72400 E7 24 (0) --> e708000100017f7f71130d0000125c68 E7 08 --> ca0100 --> ca0200 Part 0, Start Layer --> ca0130 CA 01 30, Unknown. --> ca0110 Unknown CA 01 command. --> ca0113 Air Assist On. --> c9020000060d20 Speed set at 100.000000 --> c6150000000000 C6 15 --> c6160000000000 C6 16 --> c6011175 (1st laser source min power: 13) --> c6021704 (1st laser source max power: 17) --> c6212632 (2nd laser source min power: 29) --> c6222632 (2nd laser source max power: 29) --> c6052632 (c6 05 power: 29.992676) --> c6062632 (c6 06 power: 29.992676) --> c6072632 (c6 07 power: 29.992676) --> c6082632 (c6 08 power: 29.992676) --> ca030d Unknown CA 03 Command.
Data Types
Each command in Ruida starts with a a high bit meaning all bytes sent that are 0x80 or above are commands. All other bytes consequently cannot use that bit. This leads to the strange bit-count numbers, namely 14 bit integers and 35 bit integers (which are truncated to 32 bits).
The basic raw types:
Raw Type | Bits | Bytes |
---|---|---|
int_7 | 7 | 1 |
int_14 | 14 | 2 |
uint14 | 14 | 2 |
int_35 | 32 | 5 |
cstring | 7*(N+1) | N+1 |
The 35 bit numbers require 5 bytes (5 * 7 bits) which gives 35 bits. The top three are simply ignored. These are zeroed so for signed versions it must be signed at the 32nd bit.
Type | Raw Type | Bits | Bytes | Units |
---|---|---|---|---|
Abscoord | int_35 | 32 | 5 | micrometers |
Relcoord | int_14 | 14 | 2 | micrometers |
Power | uint_14 | 14 | 2 | (100 / 2^14) percent |
Time | int_35 | 32 | 5 | microseconds |
Frequency | int_35 | 32 | 5 | Hz |
Color | int_35 | 24 | 5 | #BBGGRR 3-component 8-bit color. |
Part | int_7 | 7 | 1 | Part / Layer Index. |
Commands
Byte 0 | Byte1 | Byte2 | Syntax | Length | Meaning |
---|---|---|---|---|---|
0x80 | 0x80 <int7> <int35> | 7 | Pen Unknown | ||
0x88 | 0x88 <Abscoord> <Abscoord> | 11 | Move Absolute <X> <Y> | ||
0x89 | 0x89 <Relcoord> <Relcoord> | 5 | Move Relative <DX> <DY> | ||
0x8A | 0x8A <Relcoord> | 3 | Move Horizontal Relative <DX> | ||
0x8B | 0x8B <Relcoord> | 3 | Move Vertical Relative <DY> | ||
0xA8 | 0xA8 <Abscoord> <Abscoord> | 11 | Cut Absolute <X> <Y> | ||
0xA9 | 0xA9 <Relcoord> <Relcoord> | 5 | Cut Relative <DX> <DY> | ||
0xAA | 0xAA <Relcoord> | 3 | Cut Horizontal Relative <DX> | ||
0xAB | 0xAB <Relcoord> | 3 | Cut Vertical Relative <DY> | ||
0xC7 | 0xC7 <Power> | 3 | Immediate Power 1 <Power> | ||
0xC0 | 0xC0 <Power> | 3 | Immediate Power 2 <Power> | ||
0xC2 | 0xC2 <Power> | 3 | Immediate Power 3 <Power> | ||
0xC3 | 0xC3 <Power> | 3 | Immediate Power 4 <Power> | ||
0xC8 | 0xC8 <Power> | 3 | End Power 1 <Power> | ||
0xC1 | 0xC1 <Power> | 3 | End Power 2 <Power> | ||
0xC4 | 0xC4 <Power> | 3 | End Power 3 <Power> | ||
0xC5 | 0xC5 <Power> | 3 | End Power 4 <Power> | ||
0xC6 | 0x01 | 0xC6 0x01 <Power> | 4 | Power Min 1 <Power> | |
0xC6 | 0x21 | 0xC6 0x21 <Power> | 4 | Power Min 2 <Power> | |
0xC6 | 0x05 | 0xC6 0x05 <Power> | 4 | Power Min 3 <Power> | |
0xC6 | 0x07 | 0xC6 0x07 <Power> | 4 | Power Min 4 <Power> | |
0xC6 | 0x02 | 0xC6 0x02 <Power> | 4 | Power Max 1 <Power> | |
0xC6 | 0x22 | 0xC6 0x22 <Power> | 4 | Power Max 2 <Power> | |
0xC6 | 0x06 | 0xC6 0x06 <Power> | 4 | Power Max 3 <Power> | |
0xC6 | 0x08 | 0xC6 0x08 <Power> | 4 | Power Max 4 <Power> | |
0xC6 | 0x10 | 0xC6 0x10 <int14> | 4 | Unknown Dot Layer | |
0xC6 | 0x11 | 0xC6 0x11 ?? | ? | Add Delay | |
0xC6 | 0x12 | 0xC6 0x12 | 7 | Laser On Delay (ms) | |
0xC6 | 0x13 | 0xC6 0x13 | 7 | Laser Off Delay (ms) | |
0xC6 | 0x15 | 0xC6 0x15 ?? | ? | Laser On | |
0xC6 | 0x16 | 0xC6 0x16 ?? | ? | Laser Off | |
0xC6 | 0x31 | 0xC6 <Part> 0x31 <Power> | 5 | Part, Power Min 1 <Part> <Power> | |
0xC6 | 0x41 | 0xC6 <Part> 0x41 <Power> | 5 | Part, Power Min 2 <Part> <Power> | |
0xC6 | 0x35 | 0xC6 <Part> 0x35 <Power> | 5 | Part, Power Min 3 <Part> <Power> | |
0xC6 | 0x37 | 0xC6 <Part> 0x37 <Power> | 5 | Part, Power Min 4 <Part> <Power> | |
0xC6 | 0x32 | 0xC6 <Part> 0x32 <Power> | 5 | Part, Power Max 1 <Part> <Power> | |
0xC6 | 0x42 | 0xC6 <Part> 0x42 <Power> | 5 | Part, Power Max 2 <Part> <Power> | |
0xC6 | 0x36 | 0xC6 <Part> 0x36 <Power> | 5 | Part, Power Max 3 <Part> <Power> | |
0xC6 | 0x38 | 0xC6 <Part> 0x38 <Power> | 5 | Part, Power Max 4 <Part> <Power> | |
0xC6 | 0x50 | 0xC6 0x50 <Power> | 4 | ThroughPower <Power> | |
0xC6 | 0x51 | 0xC6 0x51 <Power> | 4 | ThroughPower <Power> | |
0xC6 | 0x55 | 0xC6 0x55 <Power> | 4 | ThroughPower <Power> | |
0xC6 | 0x56 | 0xC6 0x56 <Power> | 4 | ThroughPower <Power> | |
0xC6 | 0x60 | 0xC6 <Laser> <Part> 0x60 <Frequency> | 9 | Part, Frequency <Laser> <Part> <Frequency> | |
0xC9 | 0x02 | 0xC9 0x02 <Speed> | 7 | Velocity <Speed> | |
0xC9 | 0x03 | 0xC9 0x03 <Speed> | 7 | Axis Velocity <Speed> | |
0xC9 | 0x04 | 0xC9 <Part> 0x04 <Speed> | 8 | Part Velocity <Speed> | |
0xC9 | 0x05 | 0xC9 0x05 <Speed> | 7 | Force Velocity <Speed> | |
0xC9 | 0x06 | 0xC9 0x06 <Speed> | 7 | Axis Move Speed <Speed> | |
0xCA | 0x01 | 0x00 | 0xCA 0x01 0x00 | 3 | End Layer |
0xCA | 0x01 | 0x01 | 0xCA 0x01 0x01 | 3 | Work Mode 1 |
0xCA | 0x01 | 0x02 | 0xCA 0x01 0x02 | 3 | Work Mode 2 |
0xCA | 0x01 | 0x03 | 0xCA 0x01 0x03 | 3 | Work Mode 3 |
0xCA | 0x01 | 0x04 | 0xCA 0x01 0x04 | 3 | Work Mode 4 |
0xCA | 0x01 | 0x55 | 0xCA 0x01 0x55 | 3 | Work Mode 5 |
0xCA | 0x01 | 0x55 | 0xCA 0x01 0x05 | 3 | Work Mode 6 |
0xCA | 0x01 | 0x10 | 0xCA 0x01 0x10 | 3 | Layer Device=0 |
0xCA | 0x01 | 0x11 | 0xCA 0x01 0x11 | 3 | Layer Device=1 |
0xCA | 0x01 | 0x13 | 0xCA 0x01 0x13 | 3 | Air Assist |
0xCA | 0x02 | 0xCA 0x02 <Part> <Index> | 4 | Part, Layer Number <Part> <Index> | |
0xCA | 0x03 | 0x0F | 0xCA 0x03 0x0F | 3 | Start Vector Mode |
0xCA | 0x04 | 0x00 | 0xCA 0x04 0x00 | 3 | X Sign Map 0 |
0xCA | 0x04 | 0x01 | 0xCA 0x04 0x01 | 3 | X Sign Map 1 |
0xCA | 0x05 | 0xCA 0x05 ?? | ?? | Layer Color | |
0xCA | 0x06 | 0xCA 0x06 <Part> <Color> | 8 | Part, Layer Color <Color> | |
0xCA | 0x10 | 0x00 | 0xCA 0x10 0x00 | 3 | ?? Start Vector Mode 00 ?? |
0xCA | 0x10 | 0x0F | 0xCA 0x10 0x0F | 3 | ?? Start Vector Mode 0F ?? |
0xCA | 0x22 | 0xCA 0x22 <Part> | 3 | Part, Unknown | |
0xCA | 0x30 | 0xCA 0x30 ?? | ?? | U File ID | |
0xCA | 0x41 | 0xCA 0x41 <Part> <Mode> | 8 | Part, Work Mode <Part> <Mode> | |
0xCC | 0xCC | 1 | Msg Acknowledge | ||
0xCD | 0xCD | 1 | Msg Error | ||
0xD7 | 0xD7 | 1 | End of File | ||
0xD8 | 0x00 | 0xD8 0x00 | 2 | Stop/Start Process | |
0xD8 | 0x02 | 0xD8 0x02 | 2 | Pause Process | |
0xD8 | 0x03 | 0xD8 0x03 | 2 | Restore Process | |
0xD8 | 0x10 | 0xD8 0x12 | 2 | Ref Point Mode 0 | |
0xD8 | 0x10 | 0xD8 0x11 | 2 | Ref Point Mode 1 | |
0xD8 | 0x10 | 0xD8 0x10 | 2 | Ref Point Mode 2 | |
0xD8 | 0x2C | 0xD8 0x2C | 2 | Home Z | |
0xD8 | 0x2D | 0xD8 0x2C | 2 | Home U | |
0xD8 | 0x2E | 0xD8 0x2E | 2 | Focus Z | |
0xD9 | 0x00 | 0xD9 0x00 <Options> <Abscoord> | 8 | Move X <Options> <Abscoord> | |
0xD9 | 0x01 | 0xD9 0x01 <Options> <Abscoord> | 8 | Move Y <Options> <Abscoord> | |
0xD9 | 0x02 | 0xD9 0x02 <Options> <Abscoord> | 8 | Move Z <Options> <Abscoord> | |
0xD9 | 0x03 | 0xD9 0x03 <Options> <Abscoord> | 8 | Move U <Options> <Abscoord> | |
0xD9 | 0x10 | 0xD9 0x10 <Options> | 3 | Home XY <Options> <Abscoord> | |
0xDA | 0x00 | 0xDA 0x00 <Param> | 4 | Read Param <Param> | |
0xDA | 0x01 | 0xDA 0x01 <Param> <int35> | 9 | Write/Respond Param <Param> <Value> | |
0xDC | 0x01 | 0xDA 0x01 ?? | ?? | Upgrade Font | |
0xE6 | 0x01 | 0xE6 0x01 | 2 | Set Absolute | |
0xE7 | 0x00 | 0xE7 0x00 | 2 | Stop | |
0xE7 | 0x01 | 0xE7 0x01 <c_string> | 2 + N | Filename | |
0xE7 | 0x03 | 0xE7 0x03 <Abscoord> <Abscoord> | 12 | Process TopLeft <X> <Y> | |
0xE7 | 0x07 | 0xE7 0x07 <Abscoord> <Abscoord> | 12 | Process BottomRight <X> <Y> | |
0xE7 | 0x04 | 0xE7 0x04 <int_14> <int_14> <int_14> <int_14> | 10 | Process Repeat ?? | |
0xE7 | 0x05 | 0xE7 0x05 <int_7> | 3 | ?? Common ?? | |
0xE7 | 0x07 | 0xE7 0x06 <Abscoord> <Abscoord> | 12 | Origin Point <X> <Y> | |
0xE7 | 0x08 | 0xE7 0x08 ??? | 14 | ?? | |
0xE7 | 0x09 | 0xE7 0x09 ??? | ?? | Feed Length | |
0xE7 | 0x13 | 0xE7 0x13 <Abscoord> <Abscoord> | 12 | Array Min Point <X> <Y> | |
0xE7 | 0x17 | 0xE7 0x17 <Abscoord> <Abscoord> | 12 | Array Max Point <X> <Y> | |
0xE7 | 0x23 | 0xE7 0x23 <Abscoord> <Abscoord> | 12 | Array Add <X> <Y> | |
0xE7 | 0x24 | 0xE7 0x24 <int_7> | 3 | ?? Common ?? | |
0xE7 | 0x35 | 0xE7 0x35 ??? | ?? | Block X Size | |
0xE7 | 0x46 | 0xE7 0x46 ??? | ?? | BY Test | |
0xE7 | 0x50 | 0xE7 0x50 <Abscoord> <Abscoord> | 12 | Document Min Point <X> <Y> | |
0xE7 | 0x51 | 0xE7 0x51 <Abscoord> <Abscoord> | 12 | Document Max Point <X> <Y> | |
0xE7 | 0x52 | 0xE7 0x52 <Part> <Abscoord> <Abscoord> | 13 | Part TopLeft <X> <Y> | |
0xE7 | 0x53 | 0xE7 0x53 <Part> <Abscoord> <Abscoord> | 13 | Part BottomRight <X> <Y> | |
0xE7 | 0x54 | 0xE7 0x54 <Part> <Abscoord> | 8 | Part, Pen Offset <Abscoord> | |
0xE7 | 0x55 | 0xE7 0x55 <Part> <Abscoord> | 8 | Part, Layer Offset <Abscoord> | |
0xE7 | 0x60 | 0xE7 0x60 ?? | 3 | ?? | |
0xE7 | 0x61 | 0xE7 0x61 <Part> <Abscoord> <Abscoord> | 13 | Part TopLeft ?? <X> <Y> | |
0xE7 | 0x62 | 0xE7 0x62 <Part> <Abscoord> <Abscoord> | 13 | Part BottomRight ?? <X> <Y> | |
0xE8 | 0x00 | 0xE8 0x00 | 12 | Delete Document | |
0xE8 | 0x01 | 0xE8 0x01 <FileNumber> <c_string> | 4 + N | Document Name <FileNumber> <FileName> | |
0xE8 | 0x02 | 0xE8 0x02 | 2 | File Transfer | |
0xE8 | 0x03 | 0xE8 0x03 <Index> | 3 | Select Document <Index> | |
0xE8 | 0x04 | 0xE8 0x04 | 2 | Calculate Document Time | |
0xE9 | 0x10 | 0xE9 0x10 ?? | 2 + ?? | Update Logo | |
0xE9 | 0x30 | 0xE9 0x30 ?? | 2 + ?? | Update Color Logo | |
0xEA | 0xEA <Index> | 2 | Array Start | ||
0xEB | 0xEB | 1 | Finish | ||
0xF0 | 0xF0 | ?? | Unknown Common | ||
0xF1 | 0x00 | 0xF1 0x00 <Index> | 3 | Element Max Index <Index> | |
0xF1 | 0x01 | 0xF1 0x01 <Index> | 3 | Element Name Max Index <Index> | |
0xF1 | 0x02 | 0xF1 0x02 | 2 | Enable Block Cutting | |
0xF1 | 0x03 | 0xF1 0x03 <Abscoord> <Abscoord> | 12 | Display Offset <X> <Y> | |
0xF1 | 0x04 | 0xF1 0x04 <Index> | 3 | Feed Auto Calc <Index> | |
0xF1 | 0x10 | 0xF1 0x10 <Index> <Index> | 4 | Unknown Common | |
0xF2 | 0x00 | 0xF2 0x00 <Index> | 3 | Element Index <Index> | |
0xF2 | 0x01 | 0xF2 0x01 <Index> | 3 | Element Name <Index> | |
0xF2 | 0x02 | 0xF2 0x02 <Abscoord> <Abscoord> | 12 | Unknown Common <X> <Y> | |
0xF2 | 0x03 | 0xF2 0x03 <Abscoord> <Abscoord> | 12 | Element Array Min Point <X> <Y> | |
0xF2 | 0x04 | 0xF2 0x04 <Abscoord> <Abscoord> | 12 | Element Array Max Point <X> <Y> | |
0xF2 | 0x05 | 0xF2 0x05 ?? | 14 | Unknown Common (same as E7 08) | |
0xF2 | 0x06 | 0xF2 0x06 <Abscoord> <Abscoord> | 12 | Element Array Add <X> <Y> | |
0xF2 | 0x07 | 0xF2 0x07 <Index> | 3 | Element Array Mirror <Index> |
Options for D900, D901, D902, D903, D910:
Value | Origin | Light | Meaning |
---|---|---|---|
0 | X | Move with origin. | |
1 | X | X | Move with origin and light |
2 | Move with no options | ||
3 | X | Move with light |
Properties 0xDA
Data is requested from and to the machine for bidirectional data flow. For general usability the mission critical element is that the reply to 05 7E is 0x65006500. This is requested early on in most communications.
Byte 0 | Byte 1 | Addr 0 | Addr 1 | Value | Meaning |
---|---|---|---|---|---|
0xDA | 0x00 | Byte0 | Byte1 | Query <Byte0 Byte1> | |
0xDA | 0x01 | Byte0 | Byte1 | <int_32_5byte> | Set <Byte0 Byte1> <Value> |
Here is the list of known properties.
Byte 0 | Byte 1 | Key_Value |
---|---|---|
0x04 | 0x03 | Acc G0 Ratio |
0x02 | 0x1A | Acc Ratio |
0x02 | 0x17 | Array Feed Repay |
0x00 | 0x1e | Auto Type Space |
0x00 | 0x2B | Axis Backlash 1 |
0x00 | 0x3B | Axis Backlash 2 |
0x00 | 0x4B | Axis Backlash 3 |
0x00 | 0x5B | Axis Backlash 4 |
0x00 | 0x28 | Axis Btn Acc 1 |
0x00 | 0x38 | Axis Btn Acc 2 |
0x00 | 0x48 | Axis Btn Acc 3 |
0x00 | 0x58 | Axis Btn Acc 4 |
0x00 | 0x27 | Axis Btn Strt Vel 1 |
0x00 | 0x37 | Axis Btn Strt Vel 2 |
0x00 | 0x47 | Axis Btn Strt Vel 3 |
0x00 | 0x57 | Axis Btn Strt Vel 4 |
0x00 | 0x29 | Axis Estp Acc 1 |
0x00 | 0x39 | Axis Estp Acc 2 |
0x00 | 0x49 | Axis Estp Acc 3 |
0x00 | 0x59 | Axis Estp Acc 4 |
0x00 | 0x2A | Axis Home Offset 1 |
0x00 | 0x3A | Axis Home Offset 2 |
0x00 | 0x4A | Axis Home Offset 3 |
0x00 | 0x5A | Axis Home Offset 4 |
0x00 | 0x25 | Axis Max Acc 1 |
0x00 | 0x35 | Axis Max Acc 2 |
0x00 | 0x45 | Axis Max Acc 3 |
0x00 | 0x55 | Axis Max Acc 4 |
0x00 | 0x23 | Axis Max Velocity 1 |
0x00 | 0x33 | Axis Max Velocity 2 |
0x00 | 0x43 | Axis Max Velocity 3 |
0x00 | 0x53 | Axis Max Velocity 4 |
0x00 | 0x21 | Axis Precision 1 |
0x00 | 0x31 | Axis Precision 2 |
0x00 | 0x41 | Axis Precision 3 |
0x00 | 0x51 | Axis Precision 4 |
0x00 | 0x26 | Axis Range 1 |
0x00 | 0x36 | Axis Range 2 |
0x00 | 0x46 | Axis Range 3 |
0x00 | 0x56 | Axis Range 4 |
0x00 | 0x24 | Axis Strt Velocity 1 |
0x00 | 0x34 | Axis Strt Velocity 2 |
0x00 | 0x44 | Axis Strt Velocity 3 |
0x00 | 0x54 | Axis Strt Velocity 4 |
0x03 | 0x00 | Card Language |
0x0b | 0x11 | Card Lock |
0x02 | 0x37 | Eng Acc Ratio (0-200) |
0x00 | 0x0B | Eng Facula |
0x00 | 0x0E | Eng Vert Velocity |
0x02 | 0x07 | Feed Delay After |
0x02 | 0x0b | Feed Delay Prior |
0x02 | 0x0e | Focus Depth |
0x02 | 0x0a | G0 Acc |
0x02 | 0x03 | G0 Delay |
0x00 | 0x05 | G0 Velocity |
0x02 | 0x0f | Go Scale Blank |
0x00 | 0x0c | Home Velocity |
0x00 | 0x16 | Laser Attenuation |
0x00 | 0x13 | Max Power 1 |
0x00 | 0x19 | Max Power 2 |
0x00 | 0x64 | Max Power 3 |
0x00 | 0x69 | Max Power 4 |
0x00 | 0x12 | Min Power 1 |
0x00 | 0x18 | Min Power 2 |
0x00 | 0x63 | Min Power 3 |
0x00 | 0x68 | Min Power 4 |
0x00 | 0x11 | Laser PWM Frequency 1 |
0x00 | 0x17 | Laser PWM Frequency 2 |
0x00 | 0x65 | Laser PWM Frequency 3 |
0x00 | 0x6a | Laser PWM Frequency 4 |
0x00 | 0x1a | Laser Standby Frequency 1 |
0x00 | 0x1c | Laser Standby Frequency 2 |
0x00 | 0x66 | Laser Standby Frequency 3 |
0x00 | 0x6B | Laser Standby Frequency 4 |
0x00 | 0x1b | Laser Standby Pulse 1 |
0x00 | 0x1d | Laser Standby Pulse 2 |
0x00 | 0x67 | Laser Standby Pulse 3 |
0x00 | 0x6C | Laser Standby Pulse 4 |
0x60 | 0x1155 | Set Machine Type (54, 55) |
0x60 | 0xaa55 | Set Machine Type (22, 55) |
0x02 | 0x0c | Manual Dis |
0x02 | 0x31 | Manual Fast Speed |
0x02 | 0x32 | Manual Slow Speed |
0x03 | 0x01 - 0x08 | PC Lock |
0x04 | 0x08 | Pre Work Time |
0x02 | 0x21 | Rotate D |
0x02 | 0x1F | Rotate Pulse |
0x02 | 0x0D | Shut Down Delay |
0x02 | 0x02 | Syn Acc |
0x10 | 0x?? | System Control Mode |
0x02 | 0x?? | System Settings |
0x04 | 0x11 | Total Laser Work Time |
0x04 | 0x01 | Total Open Time |
0x04 | 0x23 | Total Work Length |
0x04 | 0x03 | Total Work Number |
0x04 | 0x02 | Total Work Time |
0x02 | 0x09 | Turn Acc |
0x02 | 0x1B | Turn Ratio |
0x02 | 0x01 | Turn Velocity |
0x06 | 0x00 | U Home Velocity |
0x02 | 0x26 | User Para 1 |
0x02 | 0x2D | U Work Velocity |
0x02 | 0x25 | X Eng Acc |
0x02 | 0x24 | X Minimum Eng Velocity |
0x02 | 0x35 | Y Eng Acc |
0x02 | 0x34 | Y Minimum Eng Velocity |
0x02 | 0x2A | Z G0 Velocity |
0x02 | 0x28 | Z Home Velocity |
0x02 | 0x2B | Z Pen Up Position |
0x02 | 0x29 | Z Work Velocity |
0x07 | 0x10-0x74 | Document Time |
0x04 | 0x00 | Machine Status (0b00110111 relevant bits). |
Machine Status:
0x10 = IsMove
Links
Official
Other Sources
- Roger Clarke Network Aware Laser Cutter Security.
- Fablab - Detail Rich Ruida Breakdown.
- Reverse Engineering of Laser Cutter Controller RDLxxx and RDCAM Software