(Transmitting Control Torques)
(Download)
 
(14 intermediate revisions by 2 users not shown)
Line 11: Line 11:
 
==CAN Frames==
 
==CAN Frames==
 
===Standard CAN Packet===
 
===Standard CAN Packet===
The standard CAN packet used for communication contains 8 bytes.
+
The standard CAN packet used for communication is 14 bytes including 8 bytes of data.
 
<syntaxhighlight lang="cpp">
 
<syntaxhighlight lang="cpp">
 
typedef struct{  
 
typedef struct{  
unsigned char STD_EXT;  
+
unsigned char STD_EXT;           //type of message (Standard or Extended)
 
unsigned long msg_id; //message identifier  
 
unsigned long msg_id; //message identifier  
 
unsigned char data_length; //  
 
unsigned char data_length; //  
Line 22: Line 22:
  
 
===ID (Message Identifier)===
 
===ID (Message Identifier)===
The 4 byte integer CAN message is split into the command ID (26 bits), destination ID (3bits) and source ID (3 bits).
+
The 4 byte integer CAN message identifier (msg_id) is split into the command ID (26 bits), destination ID (3 bits) and source ID (3 bits).
 
<br>
 
<br>
 
{|style=" border-collapse: separate; border-spacing: 15; border-width: 2px; border-style: solid; border-color: #CCCCCC; padding: 0px; text-align: left; width: 800px"
 
{|style=" border-collapse: separate; border-spacing: 15; border-width: 2px; border-style: solid; border-color: #CCCCCC; padding: 0px; text-align: left; width: 800px"
Line 48: Line 48:
 
| style="padding: 3px 5px 2px 5px; background: #F0F0F0" | Value
 
| style="padding: 3px 5px 2px 5px; background: #F0F0F0" | Value
 
| style="padding: 3px 5px 2px 5px; background: #F0F0F0" | Description
 
| style="padding: 3px 5px 2px 5px; background: #F0F0F0" | Description
| style="padding: 3px 5px 2px 5px; background: #F0F0F0" | Source
 
 
| style="padding: 3px 5px 2px 5px; background: #F0F0F0" | Destination
 
| style="padding: 3px 5px 2px 5px; background: #F0F0F0" | Destination
 +
| style="padding: 3px 5px 2px 5px; background: #F0F0F0" | Source
 
|-
 
|-
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_SYSTEM_ON
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_SYSTEM_ON
 
| style="padding: 2px 5px 2px 5px" | 0x01  
 
| style="padding: 2px 5px 2px 5px" | 0x01  
 
| style="padding: 2px 5px 2px 5px" | Start periodic communication
 
| style="padding: 2px 5px 2px 5px" | Start periodic communication
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
 
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 +
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
|-
 
|-
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_SYSTEM_OFF
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_SYSTEM_OFF
 
| style="padding: 2px 5px 2px 5px" | 0x02  
 
| style="padding: 2px 5px 2px 5px" | 0x02  
 
| style="padding: 2px 5px 2px 5px" | Stop periodic communication
 
| style="padding: 2px 5px 2px 5px" | Stop periodic communication
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
 
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 +
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
|-
 
|-
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_PERIOD
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_PERIOD
 
| style="padding: 2px 5px 2px 5px" | 0x03  
 
| style="padding: 2px 5px 2px 5px" | 0x03  
 
| style="padding: 2px 5px 2px 5px" | Set communication frequency
 
| style="padding: 2px 5px 2px 5px" | Set communication frequency
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
 
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 +
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
|-
 
|-
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_MODE_JOINT
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_MODE_JOINT
 
| style="padding: 2px 5px 2px 5px" | 0x04  
 
| style="padding: 2px 5px 2px 5px" | 0x04  
 
| style="padding: 2px 5px 2px 5px" | Command Transmission Mode
 
| style="padding: 2px 5px 2px 5px" | Command Transmission Mode
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
 
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 +
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
|-
 
|-
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_MODE_TASK
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_MODE_TASK
 
| style="padding: 2px 5px 2px 5px" | 0x05  
 
| style="padding: 2px 5px 2px 5px" | 0x05  
 
| style="padding: 2px 5px 2px 5px" | Command Transmission Mode
 
| style="padding: 2px 5px 2px 5px" | Command Transmission Mode
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
 
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 +
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
|-
 
|-
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_TORQUE_1
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_TORQUE_1
 
| style="padding: 2px 5px 2px 5px" | 0x06  
 
| style="padding: 2px 5px 2px 5px" | 0x06  
 
| style="padding: 2px 5px 2px 5px" | Index finger (1) torque command
 
| style="padding: 2px 5px 2px 5px" | Index finger (1) torque command
 +
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN  
 
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN  
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 
 
|-
 
|-
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_TORQUE_2
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_TORQUE_2
 
| style="padding: 2px 5px 2px 5px" | 0x07  
 
| style="padding: 2px 5px 2px 5px" | 0x07  
| style="padding: 2px 5px 2px 5px" | Middle finger (2) toque command
+
| style="padding: 2px 5px 2px 5px" | Middle finger (2) torque command
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
+
 
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 +
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
|-
 
|-
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_TORQUE_3
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_TORQUE_3
 
| style="padding: 2px 5px 2px 5px" | 0x08  
 
| style="padding: 2px 5px 2px 5px" | 0x08  
 
| style="padding: 2px 5px 2px 5px" | Pinky finger (3) torque command
 
| style="padding: 2px 5px 2px 5px" | Pinky finger (3) torque command
 +
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN  
 
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN  
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 
 
|-
 
|-
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_TORQUE_4
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_TORQUE_4
 
| style="padding: 2px 5px 2px 5px" | 0x09  
 
| style="padding: 2px 5px 2px 5px" | 0x09  
 
| style="padding: 2px 5px 2px 5px" | Thumb torque command
 
| style="padding: 2px 5px 2px 5px" | Thumb torque command
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
 
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 +
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
|-
 
|-
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_POSITION_1
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_POSITION_1
 
| style="padding: 2px 5px 2px 5px" | 0x0a  
 
| style="padding: 2px 5px 2px 5px" | 0x0a  
 
| style="padding: 2px 5px 2px 5px" | (unused)
 
| style="padding: 2px 5px 2px 5px" | (unused)
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
 
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 +
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
|-
 
|-
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_POSITION_2
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_POSITION_2
 
| style="padding: 2px 5px 2px 5px" | 0x0b  
 
| style="padding: 2px 5px 2px 5px" | 0x0b  
 
| style="padding: 2px 5px 2px 5px" | (unused)
 
| style="padding: 2px 5px 2px 5px" | (unused)
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
 
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 +
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
|-
 
|-
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_POSITION_3
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_POSITION_3
 
| style="padding: 2px 5px 2px 5px" | 0x0c  
 
| style="padding: 2px 5px 2px 5px" | 0x0c  
 
| style="padding: 2px 5px 2px 5px" | (unused)
 
| style="padding: 2px 5px 2px 5px" | (unused)
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
 
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 +
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
|-
 
|-
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_POSITION_4
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_SET_POSITION_4
 
| style="padding: 2px 5px 2px 5px" | 0x0d  
 
| style="padding: 2px 5px 2px 5px" | 0x0d  
 
| style="padding: 2px 5px 2px 5px" | (unused)
 
| style="padding: 2px 5px 2px 5px" | (unused)
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
 
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 +
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
|-
 
|-
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_QUERY_STATE_DATA
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_QUERY_STATE_DATA
 
| style="padding: 2px 5px 2px 5px" | 0x0e  
 
| style="padding: 2px 5px 2px 5px" | 0x0e  
 
| style="padding: 2px 5px 2px 5px" | Request joint state
 
| style="padding: 2px 5px 2px 5px" | Request joint state
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
 
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 
| style="padding: 2px 5px 2px 5px" | ID_COMMON
 +
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
|-
 
|-
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_QUERY_STATE_DATA
 
| style="padding: 2px 5px 2px 5px" | ID_CMD_QUERY_STATE_DATA
 
| style="padding: 2px 5px 2px 5px" | 0x0e  
 
| style="padding: 2px 5px 2px 5px" | 0x0e  
 
| style="padding: 2px 5px 2px 5px" | Joint state response
 
| style="padding: 2px 5px 2px 5px" | Joint state response
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_SUB_01<br>ID_DEVICE_SUB_02<br>ID_DEVICE_SUB_03<br>ID_DEVICE_SUB_04
 
 
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 +
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_SUB_01<br>ID_DEVICE_SUB_02<br>ID_DEVICE_SUB_03<br>ID_DEVICE_SUB_04
 
|-
 
|-
 
| style="padding: 5px 5px 2px 5px" | ID_CMD_QUERY_CONTROL_DATA
 
| style="padding: 5px 5px 2px 5px" | ID_CMD_QUERY_CONTROL_DATA
 
| style="padding: 2px 5px 2px 5px" | 0x0f  
 
| style="padding: 2px 5px 2px 5px" | 0x0f  
 
| style="padding: 2px 5px 2px 5px" | Joint state response
 
| style="padding: 2px 5px 2px 5px" | Joint state response
| style="padding: 2px 5px 5px 5px" | ID_DEVICE_SUB_01<br>ID_DEVICE_SUB_02<br>ID_DEVICE_SUB_03<br>ID_DEVICE_SUB_04
 
 
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 
| style="padding: 2px 5px 2px 5px" | ID_DEVICE_MAIN
 +
| style="padding: 2px 5px 5px 5px" | ID_DEVICE_SUB_01<br>ID_DEVICE_SUB_02<br>ID_DEVICE_SUB_03<br>ID_DEVICE_SUB_04
 
|-
 
|-
 
|}
 
|}
Line 256: Line 256:
  
 
'''''Note:''' PWM = Desired_Torque (N-m) * '''800.0'''.<br>800.0 is an empirical constant that will convert torque to PWM.''<br>
 
'''''Note:''' PWM = Desired_Torque (N-m) * '''800.0'''.<br>800.0 is an empirical constant that will convert torque to PWM.''<br>
'''torque2pwm = 800.0f '''
+
As seen below, ''torque2pwm = 800.0''
 +
 
 +
 
 +
'''''Note:''' The joint index order used in the following code is for '''Allegro Hand versions 2.0 and up'''. For Allegro hand 1.0 or earlier, see the code snippet after this one.''
  
 
<syntaxhighlight lang="cpp">
 
<syntaxhighlight lang="cpp">
Line 269: Line 272:
 
};  
 
};  
  
 +
// This joint index order is used Allegro Hand versions 2.0 and up.
 +
if (findex >= 0 && findex < 4)
 +
{
 +
data[0] = (unsigned char)( (pwm[3] >> 8) & 0x00ff);
 +
data[1] = (unsigned char)(pwm[3] & 0x00ff);
 +
 +
data[2] = (unsigned char)( (pwm[2] >> 8) & 0x00ff);
 +
data[3] = (unsigned char)(pwm[2] & 0x00ff);
 +
 +
data[4] = (unsigned char)( (pwm[1] >> 8) & 0x00ff);
 +
data[5] = (unsigned char)(pwm[1] & 0x00ff);
 +
 +
data[6] = (unsigned char)( (pwm[0] >> 8) & 0x00ff);
 +
data[7] = (unsigned char)(pwm[0] & 0x00ff);
 +
 +
Txid = ((unsigned long)(ID_CMD_SET_TORQUE_1 + findex)<<6) | ((unsigned long)ID_COMMON <<3) | ((unsigned long)ID_DEVICE_MAIN);
 +
canWrite(hCAN, Txid, data, 8, STD);
 +
}
 +
 +
</syntaxhighlight>
 +
 +
 +
 +
'''''Note:''' The joint index order used in the following code is for '''Allegro Hand versions 1.0 and down'''. For Allegro hand 2.0 or later, see the code snippet before this one.''
 +
 +
<syntaxhighlight lang="cpp">
 +
// This joint index order is used Allegro Hand versions 1.0 and down.
 
if (findex >= 0 && findex < 4)  
 
if (findex >= 0 && findex < 4)  
 
{  
 
{  
Line 288: Line 318:
  
 
</syntaxhighlight>
 
</syntaxhighlight>
 +
  
 
===Receiving Joint Angles===
 
===Receiving Joint Angles===
Line 363: Line 394:
  
 
==Download==
 
==Download==
[http://simlab.dyndns.org:9000/AllegroHandWiki/images/8/83/AllegroHandCanProtocol.pdf Allegro Hand CAN Protocol (eng)] ----------- ''Work in Progress.''<br>
+
[http://wiki.wonikrobotics.com/AllegroHandWiki/images/8/83/AllegroHandCanProtocol.pdf Allegro Hand CAN Protocol (English)] ----------- This page.<br>
[http://simlab.dyndns.org:9000/AllegroHandWiki/images/a/a2/AllegroHandCanProtocol_KR.pdf Allegro Hand CAN Protocol (kor)]<br>
+
[http://wiki.wonikrobotics.com/AllegroHandWiki/images/a/a2/AllegroHandCanProtocol_KR.pdf Allegro Hand CAN Protocol (Korean)]<br>

Latest revision as of 14:21, 18 May 2016

Contents

[edit] CAN Communication

[edit] Baud-Rate

The CAN communication baud-rate is 1Mbps.

[edit] Non-Periodic Communication

Messages can be sent to initialize or stop CAN communication.

[edit] Periodic Communication

The Allegro Hand control software attempts to communicate with the real or simulated hand at a regular control interval. Every 3 milliseconds, the joint torques are calculated and the joint angles are updated.

[edit] CAN Frames

[edit] Standard CAN Packet

The standard CAN packet used for communication is 14 bytes including 8 bytes of data.

typedef struct{ 
	unsigned char STD_EXT;            //type of message (Standard or Extended)
	unsigned long msg_id;		//message identifier 
	unsigned char data_length;	// 
	char           data[8];		// data array 
} can_msg;

[edit] ID (Message Identifier)

The 4 byte integer CAN message identifier (msg_id) is split into the command ID (26 bits), destination ID (3 bits) and source ID (3 bits).

1 8 16 24 26 27 29 30 32
Command ID Dest. ID Source ID


[edit] Command Identifiers

Variable Name Value Description Destination Source
ID_CMD_SET_SYSTEM_ON 0x01 Start periodic communication ID_COMMON ID_DEVICE_MAIN
ID_CMD_SET_SYSTEM_OFF 0x02 Stop periodic communication ID_COMMON ID_DEVICE_MAIN
ID_CMD_SET_PERIOD 0x03 Set communication frequency ID_COMMON ID_DEVICE_MAIN
ID_CMD_SET_MODE_JOINT 0x04 Command Transmission Mode ID_COMMON ID_DEVICE_MAIN
ID_CMD_SET_MODE_TASK 0x05 Command Transmission Mode ID_COMMON ID_DEVICE_MAIN
ID_CMD_SET_TORQUE_1 0x06 Index finger (1) torque command ID_COMMON ID_DEVICE_MAIN
ID_CMD_SET_TORQUE_2 0x07 Middle finger (2) torque command ID_COMMON ID_DEVICE_MAIN
ID_CMD_SET_TORQUE_3 0x08 Pinky finger (3) torque command ID_COMMON ID_DEVICE_MAIN
ID_CMD_SET_TORQUE_4 0x09 Thumb torque command ID_COMMON ID_DEVICE_MAIN
ID_CMD_SET_POSITION_1 0x0a (unused) ID_COMMON ID_DEVICE_MAIN
ID_CMD_SET_POSITION_2 0x0b (unused) ID_COMMON ID_DEVICE_MAIN
ID_CMD_SET_POSITION_3 0x0c (unused) ID_COMMON ID_DEVICE_MAIN
ID_CMD_SET_POSITION_4 0x0d (unused) ID_COMMON ID_DEVICE_MAIN
ID_CMD_QUERY_STATE_DATA 0x0e Request joint state ID_COMMON ID_DEVICE_MAIN
ID_CMD_QUERY_STATE_DATA 0x0e Joint state response ID_DEVICE_MAIN ID_DEVICE_SUB_01
ID_DEVICE_SUB_02
ID_DEVICE_SUB_03
ID_DEVICE_SUB_04
ID_CMD_QUERY_CONTROL_DATA 0x0f Joint state response ID_DEVICE_MAIN ID_DEVICE_SUB_01
ID_DEVICE_SUB_02
ID_DEVICE_SUB_03
ID_DEVICE_SUB_04


[edit] Source and Destination Identifiers

Variable Name Value Description
ID_COMMON 0x01 Allegro Hand
ID_DEVICE_MAIN 0x02 Control PC
ID_DEVICE_SUB_01 0x03 Index Finger
ID_DEVICE_SUB_02 0x04 Middle Finger
ID_DEVICE_SUB_03 0x05 Little Finger
ID_DEVICE_SUB_04 0x06 Thumb


[edit] Case-study: Softing CAN

In this chapter, sample code demonstrating the implementation of the CAN communication interface is provide. This is the foundation for Softing PCI CAN.

[edit] Opening the CAN Communication Channel

char ch_name[256]; 
sprintf_s(ch_name, 256, "CAN-ACx-PCI_%d", ch); 
INIL2_initialize_channel(&hCAN[ch-1], ch_name); 
 
L2CONFIG L2Config; 
L2Config.fBaudrate = 1000.0; 
L2Config.bEnableAck = 0; 
L2Config.bEnableErrorframe = 0; 
L2Config.s32AccCodeStd = 0; 
L2Config.s32AccMaskStd = 0; 
L2Config.s32AccCodeXtd = 0; 
L2Config.s32AccMaskXtd = 0; 
L2Config.s32OutputCtrl = GET_FROM_SCIM; 
L2Config.s32Prescaler = 1; 
L2Config.s32Sam = 0; 
L2Config.s32Sjw = 1; 
L2Config.s32Tseg1 = 4; 
L2Config.s32Tseg2 = 3; 
L2Config.hEvent = (void*)-1; 
 
CANL2_initialize_fifo_mode(hCAN[ch-1], &L2Config);

[edit] CAN Initialization

long Txid; 
unsigned char data[8]; 
 
Txid = ((unsigned long)ID_CMD_SET_PERIOD<<6) | ((unsigned long)ID_COMMON <<3) | ((unsigned long)ID_DEVICE_MAIN); 
data[0] = (unsigned char)period_msec; 
canWrite(hCAN, Txid, data, 1, STD); 
 
Sleep(10); 
 
Txid = ((unsigned long)ID_CMD_SET_MODE_TASK<<6) | ((unsigned long)ID_COMMON <<3) | ((unsigned long)ID_DEVICE_MAIN); 
canWrite(hCAN, Txid, data, 0, STD); 
 
Sleep(10); 
 
Txid = ((unsigned long)ID_CMD_QUERY_STATE_DATA<<6) | ((unsigned long)ID_COMMON <<3) | ((unsigned long)ID_DEVICE_MAIN); 
canWrite(hCAN, Txid, data, 0, STD);

[edit] Starting Periodic CAN Communication

When you start periodic CAN communication, joint angles are automatically updated according to the torque control input.

long Txid; 
unsigned char data[8]; 
 
Txid = ((unsigned long)ID_CMD_QUERY_STATE_DATA<<6) | ((unsigned long)ID_COMMON <<3) | ((unsigned long)ID_DEVICE_MAIN); 
canWrite(hCAN[ch-1], Txid, data, 0, STD); 
 
Sleep(10); 
 
Txid = ((unsigned long)ID_CMD_SET_SYSTEM_ON<<6) | ((unsigned long)ID_COMMON <<3) | ((unsigned long)ID_DEVICE_MAIN); 
canWrite(hCAN[ch-1], Txid, data, 0, STD);

[edit] Stopping Periodic CAN Communication

long Txid; 
unsigned char data[8]; 
 
Txid = ((unsigned long)ID_CMD_SET_SYSTEM_OFF<<6) | ((unsigned long)ID_COMMON <<3) | ((unsigned long)ID_DEVICE_MAIN); 
canWrite(hCAN[ch-1], Txid, data, 0, STD);

[edit] Transmitting Control Torques

Control inputs for the four joints in each finger should be packed in a single CAN frame. The sample code below demontrates how to encode four PWM inputs into an 8 byte data buffer and how to set the CAN frame ID properly.

Note: PWM = Desired_Torque (N-m) * 800.0.
800.0 is an empirical constant that will convert torque to PWM.

As seen below, torque2pwm = 800.0


Note: The joint index order used in the following code is for Allegro Hand versions 2.0 and up. For Allegro hand 1.0 or earlier, see the code snippet after this one.

long Txid; 
unsigned char data[8]; 
float torque2pwm = 800.0f 
short pwm[4] = { 
	0.1*torque2pwm, 
	0.1*torque2pwm, 
	0.1*torque2pwm, 
	0.1*torque2pwm 
}; 
 
// This joint index order is used Allegro Hand versions 2.0 and up.
if (findex >= 0 && findex < 4) 
{ 
	data[0] = (unsigned char)( (pwm[3] >> 8) & 0x00ff); 
	data[1] = (unsigned char)(pwm[3] & 0x00ff); 
 
	data[2] = (unsigned char)( (pwm[2] >> 8) & 0x00ff); 
	data[3] = (unsigned char)(pwm[2] & 0x00ff); 
 
	data[4] = (unsigned char)( (pwm[1] >> 8) & 0x00ff); 
	data[5] = (unsigned char)(pwm[1] & 0x00ff); 
 
	data[6] = (unsigned char)( (pwm[0] >> 8) & 0x00ff); 
	data[7] = (unsigned char)(pwm[0] & 0x00ff); 
 
	Txid = ((unsigned long)(ID_CMD_SET_TORQUE_1 + findex)<<6) | ((unsigned long)ID_COMMON <<3) | ((unsigned long)ID_DEVICE_MAIN); 
	canWrite(hCAN, Txid, data, 8, STD); 
}


Note: The joint index order used in the following code is for Allegro Hand versions 1.0 and down. For Allegro hand 2.0 or later, see the code snippet before this one.

// This joint index order is used Allegro Hand versions 1.0 and down.
if (findex >= 0 && findex < 4) 
{ 
	data[0] = (unsigned char)( (pwm[0] >> 8) & 0x00ff); 
	data[1] = (unsigned char)(pwm[0] & 0x00ff); 
 
	data[2] = (unsigned char)( (pwm[1] >> 8) & 0x00ff); 
	data[3] = (unsigned char)(pwm[1] & 0x00ff); 
 
	data[4] = (unsigned char)( (pwm[2] >> 8) & 0x00ff); 
	data[5] = (unsigned char)(pwm[2] & 0x00ff); 
 
	data[6] = (unsigned char)( (pwm[3] >> 8) & 0x00ff); 
	data[7] = (unsigned char)(pwm[3] & 0x00ff); 
 
	Txid = ((unsigned long)(ID_CMD_SET_TORQUE_1 + findex)<<6) | ((unsigned long)ID_COMMON <<3) | ((unsigned long)ID_DEVICE_MAIN); 
	canWrite(hCAN, Txid, data, 8, STD); 
}


[edit] Receiving Joint Angles

Each finger consists of four joints. The joint angles for those four joints can be received via one CAN packet. The sample code below demonstrates the method for decoding the data buffer and reading the joint angles.

The sample code assumes that when fingers are in their zero positions, the joint angles from the can packet are 32768. In practice, users should perform experiments and introduce offsets to obtain the zero position.

char cmd; 
char src; 
char des; 
int len; 
unsigned char data[8]; 
int ret; 
can_msg msg; 
PARAM_STRUCT param; 
 
ret = CANL2_read_ac(hCAN, &param); 
 
switch (ret) 
{ 
case CANL2_RA_DATAFRAME: 
	msg.msg_id = param.Ident; 
	msg.STD_EXT = STD; 
	msg.data_length = param.DataLength; 
 
	msg.data[0] = param.RCV_data[0]; 
	msg.data[1] = param.RCV_data[1]; 
	msg.data[2] = param.RCV_data[2]; 
	msg.data[3] = param.RCV_data[3]; 
	msg.data[4] = param.RCV_data[4]; 
	msg.data[5] = param.RCV_data[5]; 
	msg.data[6] = param.RCV_data[6]; 
	msg.data[7] = param.RCV_data[7]; 
 
	break; 
} 
 
cmd = (char)( (msg.msg_id >> 6) & 0x1f ); 
des = (char)( (msg.msg_id >> 3) & 0x07 ); 
src = (char)( msg.msg_id & 0x07 ); 
len = (int)( msg.data_length ); 
for(int nd=0; nd<len; nd++) 
	data[nd] = msg.data[nd]; 
 
switch (cmd) 
{ 
case ID_CMD_QUERY_CONTROL_DATA: 
	{
		if (id_src >= ID_DEVICE_SUB_01 && id_src <= ID_DEVICE_SUB_04) 
		{ 
			int temp_pos[4]; // raw angle data 
			float ang[4]; // degree 
			float q[4]; // radian 
 
			temp_pos[0] = (int)(data[0] | (data[1] << 8)); 
			temp_pos[1] = (int)(data[2] | (data[3] << 8)); 
			temp_pos[2] = (int)(data[4] | (data[5] << 8)); 
			temp_pos[3] = (int)(data[6] | (data[7] << 8)); 
 
			ang[0] = ((float)(temp_pos[0]-32768)*(333.3f/65536.0f))*(1); 
			ang[1] = ((float)(temp_pos[1]-32768)*(333.3f/65536.0f))*(1); 
			ang[2] = ((float)(temp_pos[2]-32768)*(333.3f/65536.0f))*(1); 
			ang[3] = ((float)(temp_pos[3]-32768)*(333.3f/65536.0f))*(1); 
 
			q[0] = (3.141592f/180.0f) * ang[0]; 
			q[1] = (3.141592f/180.0f) * ang[1]; 
			q[2] = (3.141592f/180.0f) * ang[2]; 
			q[3] = (3.141592f/180.0f) * ang[3]; 
		} 
	} 
 
}

[edit] Download

Allegro Hand CAN Protocol (English) ----------- This page.
Allegro Hand CAN Protocol (Korean)





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