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Difference between revisions of "SideStep"

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(Flexible Design:)
(Flexible Design:)
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:*Internal synchronous-rectification control circuitry is provided to improve power 4dissipation during PWM operation.
 
:*Internal synchronous-rectification control circuitry is provided to improve power 4dissipation during PWM operation.
 
:*Internal circuit protection includes thermal shutdown with hysteresis, under-voltage lockout (UVLO), and crossover-current protection. Special power-up sequencing is not required.
 
:*Internal circuit protection includes thermal shutdown with hysteresis, under-voltage lockout (UVLO), and crossover-current protection. Special power-up sequencing is not required.
:*The logic signals are brought out to a .1" pin header on one side, allowing for use of an IDC cable to connect your boards. Every other pin on the IDC header is
+
:*The logic signals are brought out to a .1" pin header on one side, allowing for use of an IDC cable to connect your boards. Every other pin on the IDC header is connected to ground, which acts to shield the control signals from noise. Noise in a stepper control system can cause miss stepping, which can damage your equipment, cause injury, and ruin your work piece.
connected to ground, which acts to shield the control signals from noise. Noise in a stepper control system can cause miss stepping, which can damage your equipment, cause injury, and ruin your work piece.
+
 
:*A schmitt trigger IC buffers the high voltage driver from your sensitive parallel port, 4and filters noise.
 
:*A schmitt trigger IC buffers the high voltage driver from your sensitive parallel port, 4and filters noise.
:*A large ground plane exists for heat dissipation however, the layout of the components of this driver board allows for the use of a standard 1" square BGA
+
:*A large ground plane exists for heat dissipation however, the layout of the components of this driver board allows for the use of a standard 1" square BGA heatsink. The board's large ground plane makes a heat sink unnecessary in many applications; however, use of a heat sink is recommended, especially when driving motors at higher than 1.5 amps per phase.
heatsink. The board's large ground plane makes a heat sink unnecessary in many applications; however, use of a heat sink is recommended, especially when driving motors at higher than 1.5 amps per phase.
+
:*An under-voltage lockout circuit protects the A3977 from potential shoot-through currents when the motor supply voltage is applied before the logic supply voltage. All outputs are disabled until the logic supply voltage is above 2.7V; the control logic is then able to correctly control the state of the outputs. Thermal protection circuitry turns off all the power outputs if the junction temperature exceeds 165°C. As with most integrated thermal shutdown circuits, this is intended only to protect the A3977 from failure due to excessive junction temperature and will not necessarily protect the IC from output short circuits. Normal operation is resumed when the junction temperature has decreased by about 15°C.
:*An under-voltage lockout circuit protects the A3977 from potential shoot-through currents when the motor supply voltage is applied before the logic supply voltage. All
+
outputs are disabled until the logic supply voltage is above 2.7V; the control logic is then able to correctly control the state of the outputs. Thermal protection circuitry
+
turns off all the power outputs if the junction temperature exceeds 165°C. As with most integrated thermal shutdown circuits, this is intended only to protect the A3977
+
from failure due to excessive junction temperature and will not necessarily protect the IC from output short circuits. Normal operation is resumed when the junction temperature has decreased by about 15°C.
+

Revision as of 12:08, 18 September 2013

SideStep


Model: SideStep

Stepper Motor Microstepping Driver Specs:

  • Chopper Current Driver 0.5 - 2.5 Amp Current Limiting
  • Dual H-Bridge Configuration
  • Full, Half, Quarter, & Eighth Microstepping ?Buffered Step & Direction Lines
  • 8V - 32V Supply

Description:

The SideStep is a complete microstepping motor driver and control system with a built-in translator. It is designed to operate bipolar stepper motors in full-, half-, quarter-, and eighth-step modes, with output drive capability of 32 V and up to 2.5 A. This driver utilizes the Allegro A3977 chip which includes a fixed off-time current regulator that has the ability to operate in slow-, fast-, or mixed-decay modes. This current-decay control scheme results in reduced audible motor noise, increased step accuracy, and reduced power dissipation. The SideStep is one of the smallest stepper driver boards in its class, making it ideal for incorporating into robots and other industrial control equipment.

Features:

  • Hardware or software selectable step and direction signals
  • Current limit adjustable by potentiometer
  • Wide range of motor power (5-35 V)
  • Power (for logic) indicator LED
  • 2.5 A, 35 V Output Rating
  • Automatic Current Decay Mode Detection/Selection Mixed-, Fast-, and Slo- Decay Modes
  • 3.0-5.5 V Logic Supply Voltage Range
  • Synchronous Rectification for Low Power Dissipation
  • Internal UVLO and Thermal-Shutdown Circuitry
  • Crossover Current Protection

Flexible Design:

The SideStep was designed with flexibility in mind with features including:

  • Internal synchronous-rectification control circuitry is provided to improve power 4dissipation during PWM operation.
  • Internal circuit protection includes thermal shutdown with hysteresis, under-voltage lockout (UVLO), and crossover-current protection. Special power-up sequencing is not required.
  • The logic signals are brought out to a .1" pin header on one side, allowing for use of an IDC cable to connect your boards. Every other pin on the IDC header is connected to ground, which acts to shield the control signals from noise. Noise in a stepper control system can cause miss stepping, which can damage your equipment, cause injury, and ruin your work piece.
  • A schmitt trigger IC buffers the high voltage driver from your sensitive parallel port, 4and filters noise.
  • A large ground plane exists for heat dissipation however, the layout of the components of this driver board allows for the use of a standard 1" square BGA heatsink. The board's large ground plane makes a heat sink unnecessary in many applications; however, use of a heat sink is recommended, especially when driving motors at higher than 1.5 amps per phase.
  • An under-voltage lockout circuit protects the A3977 from potential shoot-through currents when the motor supply voltage is applied before the logic supply voltage. All outputs are disabled until the logic supply voltage is above 2.7V; the control logic is then able to correctly control the state of the outputs. Thermal protection circuitry turns off all the power outputs if the junction temperature exceeds 165°C. As with most integrated thermal shutdown circuits, this is intended only to protect the A3977 from failure due to excessive junction temperature and will not necessarily protect the IC from output short circuits. Normal operation is resumed when the junction temperature has decreased by about 15°C.