Operator`s manual

2.6: CARRIAGE DRIVE

Carriage motion is controlled by a stepper motor. The motor is a 1.5 degree two-phase

type. The carriage is driven by the motor through a capstan and set of wire cables. The

capstan is sized so that one step of the motor corresponds to 1/100 of an inch (the

separation of sub-columns at 10 characters per inch).

The motor is controlled by the microprocessor which provides step sequencing and timing

functions. The motor can be stepped in one phase-on or two-phase-on modes. This dual

capability means the motor can be half stepped. When motion begins, the step rate is

ramped up to the running rate, and correspondingly the step rate is ramped down to a stop

at the end of a motion. The motor is half-stepped whenever the step rate is less than the

motor's resonant frequency.

Power is delivered by a chopping current regulator operating off the +55V supply. Power

can be cut off from the motor by disabling the “system ready” (see section on system

clamp). When the printer is idle “system ready” is disabled by the processor and the motor

is not energized. When the carriage motor is idle and system ready is enabled, the amplifier

will maintain a holding current of 0.5 amps in each winding of the motor.

Any change in the inputs to the carriage amplifier (ie. a step command) is detected by the

amplifier which responds by increasing its current limit level. This is achieved by changing

the reference voltage on the comparator in the current limiting circuit.

Because the carriage motor runs open loop, the microprocessor must keep track of carriage

position by keeping track of steps it commands the motor to take. Upon initialization at

power on, the processor must locate the position of the carriage. This is accomplished by

moving the carriage to the left side of the mechanism until it interrupts the photo-

interrupter switch located on the left end plate.

2-4