Commodore 1526 User manual

Brand: Commodore

Model: 1526

Category: Dot matrix printers

Type: User manual

This manual is also suitable for

4023
MPS-802

Commodore 1526 is a high-quality dot matrix printer capable of producing crisp, clear text and graphics. With a print speed of 60 characters per second and a maximum resolution of 80 columns, it is ideal for a wide range of printing tasks, from simple text documents to complex graphics. The Commodore 1526 also features a variety of user-friendly features, such as a self-test function for easy troubleshooting and a ribbon cartridge that is easy to install and replace.

SERVICE

MANUAL

1526

•

MPS

802

•

4023

PRINTERS

APRIL

1985

PN—31400303

Commodore

Business

Machines,

Inc.

1200

Wilson

Drive,

West

Chester,

Pennsylvania

19380

U.S.A.

Commodore

makes

expressed

or implied

war

ranties

with

regard

the

information

contained

herein.

The

information

made

available

solely

basis,

and

the

entire

risk

quality

and

accuracy

with

the

user.

Commodore

shall

not

liable

for

any

consequential

incidental

damages

connection

with

the

use

the

information

con

tained

herein.

The

listing

any

available

replace

ment

part

herein

does

not

constitute

any

case

recommendation,

warranty

guaranty

quality

suitability

such

replacement

part.

Reproduction

use

without

expressed

permission,

editorial

pictorial

content,

any

matter

prohibited.

This

manual

contains

copyrighted

and

proprietary

information.

part

this

publication

may

reproduced, stored

retrieval

system,

transmitted

any

form

any

means,

electronic,

mechanical,

photocopying,

recording

otherwise,

without

the

prior

written

permis

sian

Commodore

Eiectronics

Limited.

1985

Commodore

Electronics

Limited.

All

rights

reserved.

CONTENTS

Title

Page

SPECIFICATIONS

SET

AND

TESTING

RIBBON

CARTRIDGE

PAPER

INSTALLATION

SELF

TEST

ACCESSORIES

PARTS

LIST

MAINTENANCE

FUNCTIONAL

BLOCK

DIAGRAM

CIRCUIT

ThEORY

POWER

SUPPLY

RESET

LOGIC

CLOCK

CIRCUIT

MICROPROCESSOR

LOGIC

PAPER

FEED

MOTOR

CARRIAGE

MOTOR

WIRE

DRIVE

WIRE

COIL

PROTECTION

PAPER

CONTROL

LOGIC

CARRIAGE

POSITION

AND

HOME

SENSOR

1526

•

MPS

802

INTERFACE

LOGIC

4023

INTERFACE

LOGIC

TROUBLESHOOTING

GUIDES

PCB

PARTS

LIST

ROMUPCRIDES

1526

•

:i,IPS

802

SCHEMATIC

DEVICE

NUMBER

CHANGE

4023

SCHEMATIC

MECHANiCAL

ADJUSTMENTS

HEAD

SHIFT

LEVER

HEAD

HOME

SENSOR

WIRING

DIAGRAM

MECHANICAL

DISASSEMBLY

ASSEMBLY

NOTES

CASE

WORK’POWER

SUPPLY

MECHANICAL

ASSEMBLIES

SPECIFICATIONS

•

1526

•

MPS

802

•

4023.

METHOD

•

Bi-directional

impact

dot

matrix

CHARACTER

MATRIX

•

Dot

Matrix

CHARACTERS

•

Upper

lower

case

letters

with

true

descenders.

Numerals

symbols.

All

PET

graphic

characters

GRAPHICS

•

Vertical

dots

—

maximum

640

columns

CHARACTER

CODES

•

CBM

ASCII

code

SPEED

•

CPS

MAXIMUM

COLUMNS

•

Columns

LINE

FEED

SPACING

•

Lines/inch

character

mode

•

Lines/inch

graphics

mode

LINE

FEED

SPEED

•

Lines/sec

character

mode

•

Lines/sec

graphics

mode

PAPER

FEED

•

feed

PAPER

WIDTH

•

10”

Width

(including

tractor

feed

holes>

•

85”

Width

(after

tractor

holes>

MULTIPLE

COPIES

•

Original

plus

maximum

copies

POWER

REQUIREMENTS

•

120

Volts

AC,

Hz,

1.5

Amp

•

15261MPS

802

•

4023

•

INTERFACE

•

SERIAL

INTERFACE

•

IEEE

Protocol

COMPUTERS

•

VIC2O,

C64,

COMPUTERS

•

4032,

8032,

SX64,

C16,

8096,

SP9000,

PLUS

B-MODEL

SET

AND

TESTING

VISUAL

OBSERVATION

particularly

important

before

attempting

repair

printer.

Always

check

for

physical

damage

the

mechanism.

Remove

any

loose

debris

that

may

have

accumulated

inside

the

unit.

Ribbon

Cartridge

HEADfi

RIBBON

CARTRIDGE

Before

installing

the

ribbon

cartridge,

turn

the

printer

off.

carefully

pushing

the

carriage,

position

the

head

the

center

the

unit.

Turn

the

dial

knob

the

cartridge

the

direction

the

arrow

until

the

ribbon

taut.

Insert

the

cartridge

the

hooks

provided

and

push

down.

The

ribbon

must

positioned

between

the

head

and

the

ribbon

guide.

CAUTION!

When

installing

removing

the

ribbon

cartridge,

not

touch

the

FPC

cable.

Check

that

the

FPC

cable

remains

the

down

position

shown.

FPC

CABLE

FPC

SET

AND

TESTING

(Continued)

Paper

Installation

install

paper,

turn

the

printer

off,

remove

the

paper

rack

and

lift

the

soundproof

cover.

Lift

the

paper

hold

down

shaft

and

raise

the

covers

the

left

and

right

tractors

allow

access

the

tractor

pins.

Align

the

paper

perforations

with

the

tractor

pins

and

the

covers,

The

left

tractor

assembly

must

firmly

pressed

against

the

left

stopper.

The

right

tractor

assembly

slides

allow

adjustment

for

paper

width.

Once

the

paper

aligned

the

tractor,

turn

the

manual

feed

knob

while

guiding

the

paper

its

posi

tion

behind

the

platen

(See

the

paper

path

figure

below).

Standard

paper

may

used

simply

stalling

front

the

tractor

and

behind

the

platen,

using

the

manual

feed

knob

friction

feed

the

paper.

TRACTOR

PLATEN

TRACTOR.

PAPER

HOLD-DOWN

SHAFT

PAPER

SET

AND

TESTING

(Continued)

Self

Test

This

unit

has

pre-programmed

self-checking

capability.

The

program

may

used

test

the

head

operation,

quality

and

printer

mechanism

(ribbon

feed

function,

linefeed,

etc).

The

self-test

function

initiated

pressing

the

paper

advance

switch

while

turning

the

power

supply

switch.

NOTE:

not

operate

the

self-test

function

the

no-paper

condition.

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SAMPLE

SELF

TEST

PRINT-OUT

Additional

Testing

sample

program

should

run

test

for

proper

interface

operation.

normally

recommended

that

the

“customer

complaint”

checked

verifying

printer

operation

during

print-out

from

appropriate

program.

ACCESSORIES

PARTS

LIST

314597-01

314598-01

314598-02

314598-03

314599-01

1515001-01

903508-04

1526/802/4023

1526

MPS8O2

4023

1526/802/4023

526/MPS8O2

1526/802/4023

PAPER

RACK

USER’S

MANUAL

USER’S

MANUAL

USER’S

MANUAL

RIBBON

6PIN

DiN

CABLE

POWER

CORD

Cleaning

MAINTENANCE

CAUTION

not

use

chemicals

clean

any

the

printer

parts.

Using

clean,

dry

brush,

remove

dust

and

debris

from

the

ribbon

guide,

head,

platen

area

and

tractors

often.

Periodically

remove

the

top

case

and

brush

any

accumulated

dust

particles

from

the

unit.

Lubrication

Oil

the

carriage

pillars,

indicated,

every

500,000

lines

once

year.

Use

dry

guaze

clean

the

pillars

before

oiling.

Oil

sparingly

and

remove

any

excess,

Use

light

oil

that

will

not

attract

and

hold

dust

and

dirt

clean,

light

grease

used

protect

the

meshing

parts

the

plastic

gears.

Also,

the

springs

the

unit

may

require

lubrication.

They

can

found

behind

the

paper

guide,

the

roller

unit

(2>,

and

the

paper

holder

(2).

See

disassembly

numbers

and

for

identification.

sure

use

lubricants

sparingly.

CAUTION

not

allow

oil

grease

contact

the

motors,

sensors,

tractors,

platen,

ribbon

head.

LUB

Functional

Block

Diagram

Data

Flow

Theory

The

1526,

MPS

802

and

4023

printers

are

functionally

the

same,

with

the

exception

the

interface

circuits.

The

1526

and

MPS

802

printers

have

serial

interface,

and

the

4023

printer

has

IEEE

interface.

The

data

flow

the

same

for

all

the

printers.

The

Interface

The

1526

and

MPS

802

SerIal

Interface

Serial

data

received

rate

determined

the

clock input.

The

serial

data

signal

inverted,

then

input

the

U4D.

U4D

converts

serial

data

parallel

data.

The

4023

IEEE

Interface

Parallel

data

(DIOl

-D108)

received

the

Port

inputs

U4D

(PBO-PB7).

U4D

acts

buffer,

allowing

synchronization

between

the

processor

read

operation

and

the

receive

data

rate.

Handshake

signals

ATN

(Attention),

RFD

(Ready

for

Data),

and

DAC

(Data

Accepted)

provide

synchronization

tween the

transmitting

device

and

the

printer.

Proceseor

Logic

Printer

Data

Flow

Parallel

data

from

the

interface

present

the

data

bus

times

selected

the

operating

system

program.

The

operating

system

(program

ROM)

monitors

the

data

being

received

from

the

inter

face.

Receive

data

can

be printable

characters

control

codes.

Printable

characters

are

stored

RAM.

256

bytes

RAM

are

available

for

character

storage.

128

bytes

RAM

are

U4D,

and

128

bytes

U5D.

This

RAM

called

the

TEMPORARY

LINE

BUFFER.

Control

codes

are

interpreted

special

function

commands

and

are

executed

at the

time

they

are

received.

The

number

lines

per

inch

and

the

characters

per

inch

are

examples

special

function

commands.

Printable

characters

are

stored

the

LINE

BUFFER.

When

the

carriage

return

character

received,

all

the

characters

stored

the

LINE

BUFFER

are

converted

DOT

MATRIX

codes

the

operating

system.

The

DOT

MATRIX

codes

are

stored

ROM

with

the

operating

system.

The

DOT

MATRIX

data

written

into

port

U5D.

The

driver

circuits

activate

the

proper

wires

form

the

characters,

one

column

time.

character

being

printed,

the

head

(carriage)

stepper

motor

moves one

dot

column

position

time.

position

sensor

outputs

pulses

that

are

used

indicate

head

position

any

time

not

home

(far

left).

The

paper

stepper

motor

moves

paper

one

line

time

when

carriage

return

sensed.

The

operating

system

program

monitors

the

position

sen

sor

output,

and

generates

the

signals

that

are

passed

U6D

port

controlling

the

motors.

—

———

——————1

I/o

A61

INDICATOR

U4D

6532

128

DATA

BUS

SERIAL

1526

INTERFACE

DATA

(RAM

SELECT)

FUNCTIONAL

BLOCK

DIAGRAM

(SELECT

I/O

I/o

MICRO

PROCESSOR

(SELECT

I/O

(SELECT

I/O

ROM

(SELECT

ROM)

INVERTERS

PAPER

FEED

SWITCH

AO-A6

PAPER

OU1

HOME

POSITION

DET

HEAD

POSITION

DET

DATA

BUS

DEVICE

ADDRESS

SELECTION

DATA

BUS

4023

IEEE

INTERFACE

I/O

A121

AO-A6

DIO1

DIO8

DAC

RFD

ED!

ATN

—

-—-,

The

Power

Supply

CIRCUIT

THEORY

The

Power

Supply

generates

two

outputs,

+5VDC

and

+26VDC.

Both

outputs

are

regulated.

The

5VDC

output

supplies

the

microprocessor

and

TTL

circuits,

The

26VDC

output

supplies

the

wire

coils

and

the

paper

feed

and

carriage

motor

drive

circuits.

+5VDC

Supply

VR1

series

regulator.

The

series

regulator

keeps

the

output

voltage

constant

when

the

load

varies.

Capacitive

filtering

eliminates

most

the

ripple

voltage

the

output.

CR26

full

wave

bridge

rectifier

which

converts

the

voltage

generated

from

the

top

secondary

winding

the

power

transformer

voltage.

+26VDC

Supply

shunt

type

regulator

circuit

generates

the

constant

VDC

output.

UNREG

+26

VDC

REGULATOR

CIRCUIT

The

output

voltage

regulated

26,3VDC

because

the

base

emitter

voltage

opposes

the

voltage

developed

across

CR23.

Most

the

load

current

passes

through

the

power

transistor

Q23.

CR27

full

wave

bridge

rectifier

which

converts

the

voltage

output

from

the

bottom

secon

dary

winding

the

power

transformer

voltage.

filters

the

rectified

output

voltage.

‘LOAD

Q23

VOUT

VF3

VCR23

263V

—7V

+27V

“low”

pulse

applied

the

reset

interrupt

input,

the microprocessor

U7D,

causes

the

pro

cessor

restart

execution

the

printer

operating

system

program

stored

the

ROM

U8D,

reset

pulse

occurs

when

the

power

turned

on.

external

device

connected

the

serial

bus

can

also

generate

reset,

initializing

all

devices

connected

the

bus at

the

same

time.

short

time

after

the

power

turned

on,

the

5VDC

supply

rises

its

normal

operating

level,

This

forward

biases

Q21,

allowing

charge.

When

the

voltage

across

reaches

volts,

the

output

the

inverter

U1C

goes

“low”,

causing

the

output

the

inverter

U1C

“high”.

This

“low”

pulse

occurs

when

the

unit

switched

on. The

reset

input

—

RES

—

the

serial

bus

(interface

clear signal

—IFC

—

the

4023

IEEE

interface)

forces

the

reset

pulse

applying

“low”

the

input

the

inverter

U1C

CIRCUIT

THEORY

RESET

Reset

Logic

Circuit

Theory

POWER

+5V

Q21

COLLECTOR

C5PIN

U1C6PIN

__________

U1C4PIN

APPROX.

350

1526

AND

4023

CIRCUIT

THEORY

4MHz

1.15

L16

2.2H

C34

oii

flTft

jh14zL

R56

R55

114

lii

L680

6C35

U9C

R57

LJ9C

7400

74177

n!-..

)___d/A

MEG

LJ10C

7400

0.01

_________

7400

)

Clock

Circuit

Crystal

generates

the

fundamental

MHz

clock.

The

circuit

illustrated

below

the

crystal

stabilizes

and

squares

the

signal.

U1OC

divides

the

input

frequency

MHz

clock

output

U1OC.

This

the

processor

system

clock.

CIRCUIT

THEORY

Microprocessor

Logic

Main

control

all

printer

operations

overseen

the

6504

microprocessor

(U7D).

The

6504

microprocessor

can

address

8196

locations

allocated

RAM,

ROM,

I/O.

The

processor

com

municates

with

two

6532

I/O

devices

(U4D

and

U5D),

6522

VERSATILE

INTERFACE

ADAPTER

(U6D>,

and

byte

ROM

(U8D).

U4D

6532

I/O

device.

The

printer

interface

and

address

selection

are

controlled

U4D.

U5D

also

6532

I/O

device.

Port

outputs

the

signals

that

control

activation

the

wire

solenoids.

Port

signals

control

the

following

functions:

Paper

feed

motor

position

hold.

Carriage

return

motor

position

hold.

Paper

out

sense.

Monitors

carriage

position

counting

timing

pulses.

Monitors

carriage

home

position.

Outputs

error

LED

signal.

Monitors

paper

advance

switch.

Both

6532

I/O

devices

contain

128

bytes

RAM.

256

bytes

storage

used

line

buffer,

and

for

processor

scratch

pad

and

stack

operations.

U6D

6522

VIA.

This

device

controls

the

motors.

Port

signals

PAO-PA3

control

the

head

motor

transistor

drivers.

Port

signals

PA4-PA7

control

the

paper

motor

transistor

drivers.

The

pulse

width

control

circuits

protect

the

head

controlling

the

length

time

current

passes

through

the

wire

coils.

555

timer

limits

this

time

500

microseconds.

Microprocessor

Address

Decoding

Logic

goes

“low”

and

U2C

goes

“high”

when

U4D

selected

the

processor.

goes

“low”

and

U2C

goes

“high”

when

U5D

selected

the

processor.

When

the

processor

communicates

with

the

256

bytes

RAM

internal

the

6532

I/O

devices,

the

input

the

selected

6532

goes

“low”

because

the

processor

address

output

“low”.

U1D

goes

“low”

and

U2C

goes

“high”

when

the

processor

selects

U6D.

U2C

goes

“low”

when

the

processor

selects

U8D.

— —

°‘

(Il

(A)

0101

F3W

CA)

-v-v

-v

-ø

0 0

‘1

CIRCUITS

L___J

MICROPROCESSOR

LOGIC

-J

;

CLOCK

CIRCUIT

RESET

CIRCUIT

-J

PULSE

WIDTH

CONTROL

CIRCUIT

RESET

1526

AND

4023

CIRCUIT

THEORY

The

stepper

motor

holds

position

when

the

paper

not

advancing.

This

occurs

when

low

value

current

passes

through

phases,

producing

opposing

torques

holding

the

motor

position.

Phase

and

phase

are

turned

on,

and

switched

off.

Current

flow

limited

the

470

ohm

watt

resistor

that

parallel

with

Motor

STEPPING

ORDER

]

OFF

OFF__[

OFF

Paper

Feed

Motor

Circuit

NOTE:

DURING

REVERSE

TRANSMISSION,

THE

CURRENT

FLOW

STEPPED

REVERSE

ORDER

The

paper

feed

motor

four

phase

stepper

motor.

Sequentially

exciting

two

phases

time

causes

the

motor

turn

step

clockwise

counter

clockwise.

See

timing

chart

above.

Four

outputs

from

U6D,PA4-PA7,

activate

the

current

amplifier

transistors

3-Qi

Current

flow

through

the

emitter

collector

junction

through

phase

coil,

through

the

emitter

collector

junction

via

the

center

tap

motor

coil

excites

phase

the

stepper

motor.

This

occurs

when

the

PA4

output

U6D

goes

“low”,

U7B

goes

“high”,

turning

Q13.

The

PAO

output

U5D

must

also

“high”,

then

U7B

“low”,

and

turned

on.

CR17

CR21

suppress

CEMF

developed

the

stepper

motor

coils.

This

protects

the

current

amps

Q13-Q16.

*WITH

17-21

FORCE

*WITH

-21

COUNTER

ELECTROMOTIVE

FORCE

APPROX.

26V11____

100

ING

THROUGH

THE

COIL

Carriage

Motor

Drive

Circuits

+26

CIRCUIT

THEORY

U6D

outputs

signals

HMO-HM3

(HM

stands

for

head

motor>.

Four

outputs

drive

the

four

phases

the stepper

motor.

This

circuitry

similar

the

paper

drive

motor

circuits.

Q9-Ql

are

current

amplifiers.

The

phase

coil

energized

when

turned

on,

Current

passed

through

the

center

tap

the

motor

coil,

through

the

26VDC

supply.

The

other

three

phases

are

controlled

the

same

way.

The

output

PAl

(CA

Hold>

goes

“low”,

and

turns

off

when

holding

current

needed

hold

the

paper

position.

Two

opposing

phases

are

energized

creating

opposing

torques

holding

the

motor

position.

The

holding

currents

from

the

motor

coils

return

through

the

26VDC

supply.

limits

the

current

flow

through

the

coils,

CR13

through

CR16

suppress

the

CEMF

developed

the

coils

the

motor

protecting

the

output transistors

Q9Q1

U5D

6532

U6D

6522

SW470fl

(HMO)

PAl

PAO

PAl

PA2

PA3

lkx

’1t

—

U68

-I

068

U68

(HMI)

—

‘1

2222

—

‘.4

Motor

Wire

Drive

Circuits

CIRCUIT

THEORY

U5D

outputs

eight

signals

NDO

—

ND7

(ND

Needle

Drive>

from

parallel

port

(PBO

—

PB7).

These

signals

are

inverted

U5B

and

U6B.

The

output

the

inverters

control

current

amplifier

transistors

—

Q8.

wire

(needle)

fired

when

output transistor

forward

biased,

allowing

current

flow

through

the

coil

from

the

26VDC

supply.

CR1

CR12

suppress

CEMF

developed

the

coils.

The

inverters

U5B

and

U6B

are

7406

open

collector

Hex/Inverters.

one

shot

circuit

generates

+VCC

for

U6B

and

U5B

for

500

microseconds

when

wire

fired.

This

protects

the

wire

coils

limiting

the

current

through

the

coils.

See

Coil

Protection

Circuit

and

Timing

page

14.

500

PuI

--TP1

1)68

(ND?)

+26

CR12

(24

V)’

680

Li x

_____

—

CR9

CRBf

CR31

:-9

PB?

P86

PBS

U5D

6532

P84

P83

P82

P81

P80

E°

i:::E

1)68

1)58

.11

I—

11 11

Bottom

plate

—JWL

—‘r

Top

plate

---I--

77iT

U6D

6522

TIMING

CHART

U6D-PBO

CIRCUIT

THEORY

UBB-OUT

Q22COLLECTOR

I-

TP1

Wire

Coil

Protection

Circuits

500s

..1

When

print wire

fired,

the

output

PBO

U6D

goes

“low”.

This

triggers

the

555

U8B.

The

output

goes

“high”

for

500

microseconds.

This

turns

Q20,

Q21,

and

Q22.

The

potential

developed

the

collector

Q20

used

VCC

for

the

open

collector

Hex/Inverters

U58

and

U6B.

R39

should

adjusted

obtain

the

500

microsecond

pulse.

Vcc

Triger

reset

Reset

>—

_________

CR28

R39

20krz<

Cli

looopj

470

OUT

U8B

555

+5V

t——

R36

021’

3.9k

Q20

—

R35

Reset

circuit

TP1

022

R37

2.2

R23

3.9

DIS

GND

Lc8

Paper

Control

Logic

CIRCUIT

THEORY

normally

closed

micro

switch

located

behind

the

platen

opens

when

paper

loaded

the

printer.

When

paper

the

printer,

the

switch

closed

causing

“low”

potential

input

U5D

(PA2).

Depressing

the

push

button

the

front

the

printer

causes

form

feed

occur.

Form

feed

length

software

controlled.

“low”

potential

applied

U5D

(PA3)

when

the

push

button

depressed.

LED

inside

the

push

button

case

indicates

the

printer

powered

on.

flashing

LED

indicates

paper

out.

The

output

U5D

goes

“low”,

U2D

goes

“high”,

and

the

LED

turns

on.

15K

NO-PAPER

SENSOR

SWITCH

+5V

PAPER

ADVANCE

SWITCH

AND

INDICATOR

CIRCUIT

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Commodore 1526 User manual

Brand: Commodore

Model: 1526

Category: Dot matrix printers

Type: User manual

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4023
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Commodore 1526 User manual

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