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Dependencies: yezhong_main_controller_copy mbed1-dev
Diff: CAN/CAN.cpp
- Revision:
- 0:d80c66cb1b3a
- Child:
- 2:cd74a8cb03b0
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/CAN/CAN.cpp Tue Nov 10 09:09:58 2020 +0000 @@ -0,0 +1,112 @@ +#include "CAN.h" +#include "used_leg_message.h" + + + +//定义设备 +CAN knee_can(PB_8, PB_9); // CAN Rx pin name, CAN Tx pin name +CAN ankle_can(PB_12, PB_13); // CAN Rx pin name, CAN Tx pin name +// 定义CAN消息 +CANMessage knee_rxMsg, ankle_rxMsg; // 主控收到的CAN消息 +CANMessage knee_txMsg, ankle_txMsg; // 主控发送的CAN消息 + +//=================================函数=======================================// + +/// 将控制参数打包入CAN消息中 +/// CAN Command Packet Structure +/// 16 bit position command, between -4*pi and 4*pi +/// 12 bit velocity command, between -30 and + 30 rad/s +/// 12 bit kp, between 0 and 500 N-m/rad +/// 12 bit kd, between 0 and 100 N-m*s/rad +/// 12 bit feed forward torque, between -18 and 18 N-m +/// CAN Packet is 8 8-bit words +/// Formatted as follows. For each quantity, bit 0 is LSB +/// 0: [position[15-8]] +/// 1: [position[7-0]] +/// 2: [velocity[11-4]] +/// 3: [velocity[3-0], kp[11-8]] +/// 4: [kp[7-0]] +/// 5: [kd[11-4]] +/// 6: [kd[3-0], torque[11-8]] +/// 7: [torque[7-0]] +void pack_cmd(CANMessage * msg, joint_control joint){ + + /// limit data to be within bounds /// + float p_des = fminf(fmaxf(P_MIN, joint.p_des), P_MAX); + float v_des = fminf(fmaxf(V_MIN, joint.v_des), V_MAX); + float kp = fminf(fmaxf(KP_MIN, joint.kp), KP_MAX); + float kd = fminf(fmaxf(KD_MIN, joint.kd), KD_MAX); + float t_ff = fminf(fmaxf(T_MIN, joint.t_ff), T_MAX); + /// convert floats to unsigned ints /// + uint16_t p_int = float_to_uint(p_des, P_MIN, P_MAX, 16); + uint16_t v_int = float_to_uint(v_des, V_MIN, V_MAX, 12); + uint16_t kp_int = float_to_uint(kp, KP_MIN, KP_MAX, 12); + uint16_t kd_int = float_to_uint(kd, KD_MIN, KD_MAX, 12); + uint16_t t_int = float_to_uint(t_ff, T_MIN, T_MAX, 12); + /// pack ints into the can buffer /// + msg->data[0] = p_int>>8; + msg->data[1] = p_int&0xFF; + msg->data[2] = v_int>>4; + msg->data[3] = ((v_int&0xF)<<4)|(kp_int>>8); + msg->data[4] = kp_int&0xFF; + msg->data[5] = kd_int>>4; + msg->data[6] = ((kd_int&0xF)<<4)|(t_int>>8); + msg->data[7] = t_int&0xff; +} + + +// 多个控制器联合打包准备发送 +void PackAll(){ + pack_cmd(&knee_txMsg, a_control.knee); + pack_cmd(&ankle_txMsg, a_control.ankle); +} + + +// 写联合打包的数据 +void WriteAll(){ + knee_can.write(knee_txMsg); + wait(.00002); + ankle_can.write(ankle_txMsg); + wait(.00002); +} + + +/// 提取信息并存入状态结构体 +/// CAN Reply Packet Structure +/// 16 bit position, between -4*pi and 4*pi +/// 12 bit velocity, between -30 and + 30 rad/s +/// 12 bit current, between -40 and 40; +/// CAN Packet is 5 8-bit words +/// Formatted as follows. For each quantity, bit 0 is LSB +/// 0: [position[15-8]] +/// 1: [position[7-0]] +/// 2: [velocity[11-4]] +/// 3: [velocity[3-0], current[11-8]] +/// 4: [current[7-0]] +void unpack_reply(CANMessage msg, leg_state * state){ + /// unpack ints from can buffer /// + uint16_t id = msg.data[0]; + uint16_t p_int = (msg.data[1]<<8)|msg.data[2]; + uint16_t v_int = (msg.data[3]<<4)|(msg.data[4]>>4); + uint16_t i_int = ((msg.data[4]&0xF)<<8)|msg.data[5]; + /// convert uints to floats /// + float p = uint_to_float(p_int, P_MIN, P_MAX, 16); + float v = uint_to_float(v_int, V_MIN, V_MAX, 12); + float t = uint_to_float(i_int, -T_MAX, T_MAX, 12); + + if(id==0x01){ + state->knee_state.p = p; + state->knee_state.v = v; + state->knee_state.t = t; + } + else if(id==0x01){ + state->ankle_state.p = p; + state->ankle_state.v = v; + state->ankle_state.t = t; + } +} + + + + +