Big Easy Driver User Manual
Contents
1. U a 940314 SN SN NAN ANAN ANNE ME ADD SBD ENABLEMSiNS2 HS3 PRST SLEEPYCC GND STEP DIR Figure 2 BED v1 1 Connection Placement Diagram Jumper Configuration There are two jumpers on the BED APWR Alternate Power and 3 5V They are located in the upper left corner of the BED NOTE On the v1 1 of the BED these two jumpers have their silk screen labels reversed APWR Alternate Power This jumper is normally closed connected If you cut the trace between the two pads the BED s voltage regulator chip is disconnected from the circuit and you can then use the VCC connection on the bottom edge of the board as an input to power your BED with whatever logic level voltage you want to 3 0V to 5 5V is the accepted range You might choose this option if you wish to power your BED s logic level circuits with an external power source This jumper is labeled SJ1 in the schematic 3 5V This jumper is normally open dis connected You can switch the BED to use 3 3V for its logic level circuits by soldering this jumper closed You would do this if you wanted to interface your BED to a 3 3V microcontroller for example This jumper is labeled JS2 in the schematic Current Limit Set Potentiometer The BED includes a very small pot to allow for the adjustment of the maximum current level through the windings of the motor On the board this pot is labeled CUR ADJ Turning the pot clockwise decreases the maximum curre2. out When driving high currents the entire board will act as a heatsink including the connectors and anything the board is connected to The driver chip has excellent over temperature protection so no damage can be done to the driver chip by running the board too hot it will simply cut out until the chip temperature returns to normal less than about 150C Adding a small heatsink like Newark 43M6428 and or using a small fan to cool the drive chip can allow currents in excess of 2A phase Motor Wiring coming soon Specifications The specifications of the Big Easy Driver are the same as for the Allegro A4983 or A4988 stepper driver chip depending upon which is installed on the board This includes a maximum of 2A phase 16 8 4 2 and full step modes 3 3V or 5V logic inputs jumper selectable Schematic BigEasyDriver v1 1 DEFAULT OP www schmalzhaus com BigEasyDriver Must use LM317 For 35V V input Bath Cl4a and C1 must Normally Open ed gt Vcc Be rated for gt 3 v Parts Placement urrent DMA to 2 44 AMN Motor current OmA to 1 64 n i n supply 100MA lich the BED needs ENABLE ANMA The rest you can use if you want BigE er v1 1 by Brian zis licen era Designed by Brian Schmalz Spark Fun Electronics TITLE BigEasyDriver_v11 1471 SFE Document Number w Date 5 18 20
3. 11 8 45 54 AM Sheet 1 1 This user manual is only an overview For more information about the technical details of how the BED drives the stepper motor please see the official Allegro A4983 or A4988 driver datasheet www allegromicro com License This document and the entire BED design are released under the Creative Commons Attribution 3 0 US License This means that you may use it for whatever purpose you want including commercial use but you MUST give the original author Brian Schmalz proper attribution
4. Big Easy Driver User Manual Doc version 1 1 for BED v1 1 5 18 2011 Brian Schmalz Schmalz Haus LLC www schmalzhaus com BigEasyDriver brian schmalzhaus com PRELIMINARY Description The Big Easy Driver BED is a major revision of the Easy Driver stepper driver board The BED takes power and control signals STEP and DIRECTION and produces the signals necessary to step a 0A to 2Amp bi polar stepper motor The BED uses an Allegro A4983 or A4988 driver chip Bee es oF eee OOO iti 3 hea ja pa zy Lae i ZN i S d 1A Lare A0 4 E Ej TaN OAA X ONAT JOE TAME Oa EWABLEMSANS2 M83 RET SLEEP yCC an SZ Se de amp gt kiad 4 gt a a ial gt L m a a 4 a 3 a N i a a p ta Figure 1 Big Easy Driver v1 1 Hook Up The BED has holes for both 100 headers as well as 3 5mm screw terminals Either or both can be used to connect to the BED however you want You can put female or male headers in the 100 holes or solder wires directly to the holes The minimum number of connections to the BED is 7 four stepper wires Power Gnd and Step All others are optional Note that there are two ground connections one next to the power input and one next to the step input Typically these will connect to the power supply ground and the signal ground from the microcontroller respectively Top Edge Connections Motor Connect the four wires from the motor to th
5. e four motor connections on the BED The two A connections should connect to one coil and the B connections to the other coil Power Connect the power input 8 to 30V filtered DC to the M connection and GND from the power supply to the GND connection Bottom Edge Connections ENABLE This input is pulled down on the board with a 20K Ohm resistor You can leave it disconnected or you can drive it from your microcontroller When low the driver chip is enabled and the motor is energized When high the driver chip is still enabled but all of the final motor drive circuits are disabled and so no current will flow to the motor MS1 MS2 MS3 These inputs are all tied high with 20K Ohm resistors They set the microstep setting Use the following table to know how to control the microstep settings MS1_ MS2 MS3 Microstep Resolution Excitation Mode L L L Full Step 2 Phase H L L Half Step 1 2 Phase L H L Quarter Step W1 2 Phase H H L Either Step 2W1 2 Phase H H H Sixteenth Step 4W1 2 Phase RST Reset This input is tied high with a 20K Ohm resistor on the BED If this signal is pulled low the motor driver circuits are shut off and the driver is reset Only when this input is high will the driver chip enable the motor driver circuits and pay attention to the STEP input SLEEP This input is tied high with a 20K Ohm resistor on the BED To put the driver chip into a lower power mode
6. motor driver circuits shut off charge pump shut down etc pull this input low When coming out of sleep allow at least Ims before sending STEP pulses VCC This is an output from the BED s voltage regulator The voltage regulator takes the motor input voltage and provides 5V or 3 3V for the logic inputs of the driver chip You can normally use about 85mA from this pin although the higher the motor input voltage is the hotter the voltage regulator chip will get as you pull more current from this pin See the jumper configuration section below to switch this to 3 3V output GND This is one of two ground connections on the BED The other is on the topside next to the M power input Both grounds are internally tied together on the BED This is a good place to tie the ground of your microcontroller STEP This input is tied high with a 20K Ohm resistor on the BED Each rising edge of this input will cause the stepper driver to advance one step in the direction specified by the DIR input The STEP input must be high for at least lus and low for at least lus DIR This input is tied high with a 20K Ohm resistor on the BED When a STEP pulse is received the driver chip looks at this input to determine which direction to take the step When high the motor will turn counterclockwise and when low the motor will turn clockwise aa BND Hr is iz gt bl k qi P a 8 LJ r ad i u 4 J iy aia N ed iy i
7. nt and turning it counterclockwise increases the maximum current If your BED uses 22 ohm sense resistors The range of the pot produces maximum motor currents from around 0mA fully clockwise to 2 4A fully counterclockwise If your BED uses 11 ohm sense resistors The range of the pot produces maximum motor currents from around 0mA fully clockwise to 5A fully counterclockwise Now the driver can t supply 5A so the full range of the pot won t be used The TP1 testpoint can be used to measure the voltage on the CUR_REF net which the driver chip uses to determine the maximum current through the motor See the driver chip datasheet for the formula for converting this voltage into a max current setting Power LED There is a yellow LED near the lower left corner of the BED labeled PWR This LED will light any time there is 5V or 3 3V being supplied to the driver chip If this LED goes off while there is still power being applied to the M and GND power inputs then the voltage regulator chip has either become too hot and shut down or has detected a short from VCC to GND and has shut off If the LED turns on and off then either the M power is turning on and off or the voltage regulator chip is overheating and power cycling to try and stay cool Heat Dissipation The Big Easy Driver can supply up to about 1 4A phase of current at room temperature This is due to the four layer construction of the board and the way the board is laid
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