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--- eeros_architecture:control_system:available_blocks:canopensend [2024/05/30 16:56] – ursgraf
+++ eeros_architecture:control_system:available_blocks:canopensend [2024/05/30 17:13] (current) – ursgraf
@@ Line 8: / Line 8: @@
 ===== Data Transfer =====
 Each time the block is run by its time domain, a ''sync'' message is sent followed by one or several RPDOs to all connected nodes. Each PDO carries one or more CANopen objects. See [[https://gitlab.ost.ch/tech/inf/public/canopenlib/-/blob/master/demo/demo.md#demo-1]] for the configuration of the PDOs. Make sure, that you send the RPDO exactly as your drive expects it. The //CANopen Send// block has several inputs as shown below.
-[{{ :eeros_architecture:control_system:available_blocks:canopensend.png |//Signal Inputs// }}]
+[{{ :eeros_architecture:control_system:available_blocks:canopensend.png?600 |//Signal Inputs// }}]
-After the block has been created you have to configure the PDOs which are sent to each drive. While doing this you must specify which of the signal inputs (floating point or fixed point) get included into which PDO. The method
+Each drive has its own node id and its specific input index (0 to N-1). After the block has been created you have to configure the PDOs which are sent to each drive. While doing this you must specify which of the signal inputs (floating point or fixed point) get included into which PDO. Both signals can be vectors. The method
 <code cpp>
 configureRPDO(uint8_t nodeId, uint8_t RPDOnr, std::vector<coObject_t> objs, std::vector<int8_t> idx))
 </code>
-includes a vector of all CANopen objects which are mapped into this RPDO together with a corresponding vector of indices. These indices determine which signal is taken for this RPDO. To give an example: idx=1 takes the floating point signal at index 1, idx=1 takes the floating point signal at index 1
+includes a vector of all CANopen objects which are mapped into this RPDO together with a corresponding vector of indices. These indices determine which signal is taken for this RPDO. To give an example: idx=1 takes the floating point signal at index 0, idx=2 takes the floating point signal at index 1, idx=0 takes the control word and idx=-1 takes the integer signal at index 0.
+How could this be used? Let us assume, that the drive with node id = 37 should receive a RPDO1 with control word and velocity setpoint and RPDO2 with digital output word (steering some enable pins or leds). Let's further assume that the floating point input signal is a vector consisting of position setpoint and velocity setpoint. The configuration would then be
+<code cpp>
+configureRPDO(37, RPDO1, {controlObj, velModeSetValObj}, {0,1});
+configureRPDO(37, RPDO2, {digOutStateObj}, {-1});
+</code>
-and RPDO2 (velocity). While the control word can be set by the method
+The control word has no input but can be set by the method
 <code cpp>
-setCtrl(Matrix<nofNodes,1,uint16_t>);
+setCtrl(uint8_t index, uint16_t ctrl>);
 </code>
-the velocity is taken from its input ''vel''. \\
-The velocity input expects a signal in SI units, e.g. rad/s. To account for encoder resolution of the actual drive together with a gearbox, it is possible to set a scaling factor with
+The floating point input signals expect signals in SI units, e.g. rad/s. To account for encoder resolution of the actual drive together with a gearbox, it is possible to set a scaling factor with
 <code cpp>
-setVelScale(Matrix<nofNodes,1,double>);
+setScale(Matrix<N,M,double>);
 </code>
 This blocks uses the [[https://gitlab.ost.ch/tech/inf/public/canopenlib|CANopen Library]]. Make sure to install this library following [[https://wiki.eeros.org/getting_started/install_wrapper#canopen|]].