CY325 ETC, CY325 Datasheet - Page 94

Manufacturer Part Number

CY325

Description

Stepper System Controller

Manufacturer

ETC

Datasheet

1.CY325.pdf (107 pages)

CY545 Stepper System Controller

www.ControlChips.com

Notice that every character of a command takes one memory location, and all characters must

be counted to compute the target address for the Loop command.

The program then punches a hole at the last position, moves an additional 200 steps, and

activates the User Bit 2 signal to cut the strip.

Now the CY545 returns the motor to the starting position. It then tests User Bit 4, and if the

signal is low, the program repeats from the Wait instruction. If the signal is high, the program

stops with the Zero command, and the CY545 returns to the command mode.

Driver Circuit Considerations

The CY545 provides the timing and logical signals necessary to control a stepper motor.

However, to make a complete system, a driver circuit must be added to the CY545. This circuit

will take the logical signals generated by the CY545 and translate them into the high-power

signals needed to run the motor.

The user has two choices in the selection of driver circuits. Existing designs, usually in the form

of pulse-to-step translators, may be used, or special designs may be created. Translators

usually require a pulse and direction input, or two pulse streams, one for CW stepping and one

for CCW stepping. The translator takes the pulse inputs and generates the proper four-phase

outputs for the motor. Note that it is also possible to drive motors with this scheme which are not

four-phase designs. Since the translator generates the actual motor driver signals, it only

requires the pulse timing and direction information generated by the CY545 PULSE and CCW

signals. This allows the CY545 to control three and five-phase motors as well as the standard

four-phase designs.

If the user opts for his own driver design, the PULSE and CCW lines may be used to drive a

counter circuit, which counts up or down once for each pulse, based on the level of the CCW

signal. The counter output then drives the address lines of a memory device, such as a PROM,

EPROM, or EEPROM, with data outputs that generate the desired motor phase patterns as the

counter address steps through the PROM locations. This design is shown here.

Chapter 19 - Circuits and Examples