Applied Motion PDO2035 User Manual

User's Manual

PDO 2035

Step Motor Driver

EN

DIR

TACH-

COM

TACH+

STEP

WPR
CCW

CW

SPEED
DECEL

ACCEL

LO
BYPASS

EXT

➜

➜

INT

➜

➜

HI

➜

MOTOR

B–

B+
A–

A+

123

POWER

1000
500

250

125
HALF
STEP

CURRENT

(BASE = 125mA)

FULL

12345

STEP

motors • drives • controls

PDO 2035

Step Motor Driver

GND

N

L

AC POWER

Do I Have the Right Manual?

In April, 1999 we began shipping PDO 2035 drives. Prior to that, we made a similar
drive called the PD2035. The PDO 2035, which is the subject of this manual, sports
the following improvements:

• Connections to the Enable input, the external speed input or the TACH output
used to require a "crimped on" connector, which our customers found to be
complicated and difficult. We now use pluggable, screw terminal connectors for
everything.

• The Step, Dir and Enable inputs now support 5-24V signal levels without adding
dropping resistors or setting the old "5V/24V switch." You can also use sourcing
(PNP) or sinking (NPN) input signals. The PD2035 only accepted sinking signals.

So Which Drive Do I Have?

Just look at the front panel: it either reads "PDO 2035" or "PD2035".

If you have a PD2035, call or fax the factory and request the
"PD2035 User's Manual". You can also download the
manual, in Adobe PDF format, from our website at
www.applied-motion.com.

Introduction

Thank you for selecting an Applied Motion Products motor control. We hope our
dedication to performance, quality and economy will make your motion control
project successful.

If there's anything we can do to improve our products or help you use them better,
please call or fax. We'd like to hear from you. Our phone number is (800) 525­1609 or you can reach us by fax at (831) 761–6544.

Features

•

Built in 30 volt DC power supply. Drive accepts AC input, 110/220 V, 50/60Hz

•

Drives sizes 14 through 23 step motors. Can also be used to drive size 34
motors at low speeds.

•

Pulse width modulation, recirculating switching amplifiers

•

Phase current from 0.125 to 2.0 amps (switch selectable, 16 settings)

•

Step, direction, amplifier enable inputs, tach output, all optically isolated

•

Full and half step (switch selectable)

•

Automatic 50% idle current reduction (defeatable by internal jumper)

•

Built in ramping pulse generator with adjustable speed, accel, decel

•

Two speed ranges: 10 - 1200 Hz and 100 - 12000 Hz

•

Pluggable, screw terminal connectors

•

Fully enclosed in ventilated steel housing with aluminum heat transfer plate

Block Diagram

osc

options

common

step
direction

enable
tach

out

110/220

VAC

123

step

Optical

Isolators

Power

Supply

Oscillator

dir

external speed pot

accel

decel

speed adj

Step

Sequencer

full step/

1

half step

-3--14-

Amplifier

current setting

2345

A+
A–
B+
B–

to
motor

Getting Started

To use your Applied Motion Products motor control, you will need the following:

•an AC power cord

•5-24 volts DC to activate the optoisolation circuits

•a source of step pulses

•if your application calls for bidirectional rotation, you'll also need a direction
signal

•a compatible step motor (minimum inductance of 1 mH/phase)

•a small flat blade screwdriver (2.5 mm) for tightening the connectors and
adjusting the oscillator

•If your application calls for connection to 220 VAC, you will need a small Phillips
screwdriver in order to remove the drive cover.

Always disconnect AC power to the drive before removing the cover.

The sketch below shows where to find the important connection and adjustment
points. Please examine it now.

All mating connectors are included.

mounting hole

signal connector

(ext speed, tach out)

trimpots

(speed, accel, decel)

switches

(osc set up)

mounting hole

DIR

TACH-

COM

TACH+

STEP

WPR
CCW

CW

SPEED
DECEL

ACCEL

HI

LO

➜

➜

➜

BYPASS

EXT

HALF

123

INT

➜

➜

STEP

POWER

B–

B+
A–

MOTOR

A+

PDO 2035

Step Motor Driver

GND

N

L

AC POWER

-4-

EN

1000
500

250
125

CURRENT

(BASE = 125mA)

FULL

12345

STEP

signal connector
(step, dir, enable)

switches
(current setting
full/half step)

motor connector

AC Power connector

Connecting the AC Line

110 Volts

The PDO 2035 is set for 110 volt operation at the factory. All you need to do is
install a power cord and plug it in. If you want to direct wire the PDO 2035 to AC
power, you must consult a qualified electrician and observe all building and
electrical codes.

You can install the AC cord yourself, but be careful:

AC power can be dangerous.

220 Volts

The PDO 2035 is set for 110 volt operation at the factory. In order to use 220 volts,
you'll need to remove the cover and slide the switch to the "220V" setting.

First, disconnect all power from the system.

Next, remove all four of the
green connector plugs from the front panel. Then, using your small Phillips screw
driver, remove the five screws that hold the cover on.

The cover will slide off easily once all of the screws are removed. You should see a
black switch near the "AC POWER" connector, right next to the big transformer.
Push the switch to the "220V" side.
Now put the cover back on and replace all five screws, tightening them carefully.

Never operate the drive with the cover off

!

Installing an AC Line Cord

Remove about 5 mm (3/16 inches) of insulation from each of the three wires of your
line cord. (That's right, three wires. For safety, always use a three wire power cord
on anything with a metal case.) Depending on where you got your power cord, it
may have black, white and green wires or brown/blue/green.

The AC power plug that was shipped with your PDO 2035 might be one of two
types. The "old style" is shown below, on the left. The "new style" (shown on the
right) comes with an insulating rubber boot.

Make sure you follow the proper

sketch for your connector style.

e

e

n

r

g

To Earth Ground

o

e

r

t

b

i

h

l

u

w

e

To Neutral

o

r

k

b

c

a

r

o

w

bl

n

To Line (Hot)

To Earth Ground

To Neutral

To Line (Hot)

g

r

e

e

n

w

h

i

t

e

b

l

a

c

k

"Old Style" AC Power Plug "New Style" AC Power Plug

Always unplug the line cord from the wall before attaching it

!

to the PDO 2035

•Connect the black or brown wire to the PDO 2035 "L" terminal of the AC power
connector. That is the line, or "hot" connection.

•Connect the white or blue wire to neutral. That's the "N" terminal.

•Finally, and most importantly, connect the green wire to the GND terminal. That
connects the PDO 2035 metal enclosure and DC power supply ground to earth
ground.

Connecting the Motor

Never connect the motor to the driver when the AC power is on.

!

Secure any unused motor leads.
Never disconnect the motor while the AC power is on.
Never connect motor leads to ground or to a power supply.

You must now decide how to connect your motor to the drive.
Four lead motors can only be connected

one way. Please follow the sketch at the
right.

Six lead motors can be connected in
series or center tap. In series mode, motors
produce more torque at low speeds, but
cannot run as fast as in the center tap

Red

A+

A–

Blue

4

lead

motor

configuration. In series operation, the motor
should be operated at 30% less than the
rated current to prevent overheating.

Yellow

B+ B–

White

Winding diagrams for both connection
methods are shown below. NC means not

4 Leads

connected.

Grn/Wht

A–

White

NC

Green

A+

Red

B–

6 Leads Series Connected 6 Leads Center Tap Connected

lead

motor

Black

NC

6

Red/

Wht

B+

-6-

A–

A+

NC

Grn/Wht

White

Green

Red

6

lead

motor

Black

B+B–

Red/

Wht

NC

Eight lead motors can also be connected in two ways: series and parallel. As
with six lead motors, series operation gives you more torque at low speeds and less
torque at high speeds. In series operation, the motor should be operated at 30%
less than the rated current to prevent over heating. The wiring diagrams for eight
lead motors are shown below.

Orange

A+

Org/Wht

Blk/Wht

A–

Black

Red

B+ B–

8 Leads Series Connected

Step A+ A- B+ B-

0+–+–

DIR=1

cw

1–++–
2–+–+

Red/

Wht

8

lead

motor

Yel/
Wht

Blk/Wht

A–

Yellow

Step Table

(full stepping)

Orange

A+

8

lead

Org/

Wht

Black

Red

B+

8 Leads Parallel Connected

Yel/
Wht

motor

Red/Wht

Yel
low

B–

DIR=0

ccw

3+– –+
4+–+–

Step 3 is the Power Up State

-7--10-

Connecting Logic

The PDO2035 drive contains optical isolation circuitry to prevent the electrical noise
(inherent in switching amplifiers) from interfering with your circuits. Optical
isolation is accomplished by powering the motor driver from a different supply than
your circuits. There is no electrical connection between the two: signal
communication is achieved by infrared light. When your circuit turns on or turns off
an infrared LED (built into the PDO2035) signals a logic state to the photo­transistors that are wired to the brains of the drive.

A schematic diagram of the input circuit is shown on the right.
You must supply 5-24 volts DC to activate

the LEDs on the input side of the
optoisolators. The maximum current draw
is 30 mA.

If your controlling logic is 24V, it must be
capable of sinking at least 30 mA to control
each drive input. If you are using 5 volt
logic (TTL level) then each signal must sink
5 mA.

If your STEP, DIR and ENABLE signals are
sinking (NPN) then connect COM to your power supply +. If your signals are
sourcing (PNP) then connect COM to power supply -.

COM

STEP

DIR

EN

730

Inside PDO 2035

2200

2200

STEP tells the driver when to move the motor one step. The drive steps on the
rising edge of the pulse. If the pulse is negative (low) the minimum width is 10
microseconds.

DIRECTION signals which way the motor should turn. See the step table on page 7
for details. The

DIRECTION

signal should be changed at least 50 microseconds

before a step pulse is sent. If you change the state of the direction input

and send a step pulse at the same instant the motor may take a step in
the wrong direction.

ENABLE allows the user to turn off the current to the motor by setting this signal to

logic 0. The logic circuitry continues to operate, so the drive "remembers" the step
position even when the amplifiers are disabled. However, the motor may move
slightly when the current is removed depending on the exact motor and load
characteristics. If you have no need to disable the amplifiers, you don't

need to connect anything to the

ENABLE

input.

-8- -9-

Using the TACH Output

The PDO2035 has a pulse output to tell you how fast the oscillator is going. It
produces one pulse per motor step. You can connect this to a counter to provide
position information, or to a tachometer to provide speed data, or both. The pulse
output is optically isolated for noise immunity, which makes it more flexible and
more reliable, but also harder to hookup.

The TACH output is rated for 5 - 24VDC operation, up to 20 mA.

CW

PDO2035

TACH+

TACH–

CCW

1000 Ohm
Resistor
1/4 watt

output

signal

5 usec

scope probe

24 VDC

Power Supply

+–

PDO2035

TACH+

TACH–

Connecting the Pulse Output

to a Frequency Counter

or Oscilloscope

Connecting the Pulse Output

to a PLC

Selecting Between Full and Half Step

Locate the bank of DIP switches on the front panel. Switch
number 1 is labeled
toward the

HALF STEP

HALF STEP

. Sliding the switch

label sets the driver for that mode
of operation. The opposite position is full step. When set
to full step, the driver always uses "two phases on" mode
to provide maximum motor torque.

1000

500
250
125

HALF

STEP

COMMON

INPUT

PLC

12345

Using the Oscillator

The PDO2035 is equipped with an internal pulse
generator that you can use to control the motor. To
select the oscillator mode of operation (run/stop mode)
move switch 2 away from the

BYPASS

label, as shown

LO

BYPASS

EXT

➜
➜

➜
➜

HI

➜

INT

at the right.
The oscillator is activated by driving the

STEP

input low. The frequency of step
pulses will increase linearly, accelerating the motor until it reaches a preset slew
speed. The motor will remain at this speed until the

STEP

input is driven high. The
step pulse frequency then decreases linearly, decelerating the motor and load to
rest. The PDO2035 lets you choose from two oscillator speed ranges: 10 - 1200
steps/second (LO) and 100 - 12000 steps/sec (HI). Set the speed range with the
"LO/HI" switch.

(speed range)

(internal oscillator)

(potentiometer)

LO

➜

➜

BYPASS

➜

EXT

➜

HI

INT

➜

123

LO

➜

➜

BYPASS

➜

EXT

➜

HI

➜

INT

10 - 1200 steps/sec 100 - 12000 steps/sec

To adjust the speed, locate the trimpot labeled

SPEED

. By turning the brass screw
you can raise or lower the speed within the range you have selected. Turning the
screw clockwise makes the motor run faster.

123

123

The acceleration and deceleration rates can also be adjusted using the trimpots
labeled

ACCEL

and

DECEL

. The range of accel and decel rates is illustrated below.

Turning the screw clockwise makes the motor accelerate or decelerate faster.

2

5000 steps/sec

steps/sec

1200 steps/sec

600

300

steps/sec

150

steps/sec

2

2

2

steps/sec

2500 steps/sec

2

3362

LO range accel/decel settings

Shown at 2500 steps/sec

10,000

20,000

steps/sec
(no ramp)

2

25,000 steps/sec

2

2

12000 steps/sec

steps/sec

2

steps/sec

steps/sec

6000

3000

1500

2

2

2

2

3362

HI range accel/decel settings

Shown at 25,000 steps/sec

2

50,000 steps/sec

100,000

steps/sec

steps/sec
(no ramp)

2

2

2

200,000

2

Using the Oscillator with Switches & PLCs.

If you plan to use the PDO 2035 in oscillator mode, you may need a source of
voltage to activate the optoisolation circuits. This is true if you are using
mechanical switches or relays. It may also be the case if you are using a PLC with
optically isolated outputs, since they behave like switches.

PDO 2035
4 position
connector

DIR

COM
STEP

direction switch

run switch

PDO 2035
5 position

connector

CW

CCW

WPR

(closed=run)

Setting Phase Current

Before you turn on the power supply the first time, you need to set the driver for the
proper motor phase current. The rated current is usually printed on the motor label.

The PDO 2035 drive current is easy to set. If you wish, you can learn a simple
formula for setting current and never need the manual again. Or you can skip to the

table on the next page, find the current setting you want, and set the DIP switches
according to the picture.

Current Setting Formula

Locate the bank of DIP switches next to the motor connector. Four of the switches
have a value of current printed next to them, such as 500 and 1000. Each switch

controls the amount of current, in milliamperes (mA), that it's label indicates. There
is always a base current of 125 mA. To add to that, slide the appropriate switches

toward their labels. You may need your small screwdriver for this.

Example

Suppose you want to set the driver for 1.25 amps
per phase (1250 mA). You need the 125 mA base

current plus another 1000 and 125 mA.

1250 = 125 + 1000 +125

Slide the 125 and 1000 mA switches toward
the labels as shown in the figure.

-11-

1000

500
250

125

HALF

STEP

12345

Current Setting Table

.125

AMPS/PHASE

.25

AMPS/PHASE

.375

AMPS/PHASE

.5

AMPS/PHASE

.625

AMPS/PHASE

1000

500
250

125

1000

500
250

125

1000

500
250

125

1000

500
250

125

1000

500
250

125

1.125

AMPS/PHASE

2345

AMPS/PHASE

2345

1.375

AMPS/PHASE

2345

AMPS/PHASE

2345

1.625

AMPS/PHASE

2345

1.25

1.5

1000

500
250

125

1000

500
250

125

1000

500
250

125

1000

500
250

125

1000

500
250

125

2345

2345

2345

2345

2345

.75

AMPS/PHASE

.875

AMPS/PHASE

1

AMPS/PHASE

1000

500
250

125

1000

500
250

125

1000

500
250

125

1000

1.75

AMPS/PHASE

2345

1.875

AMPS/PHASE

2345

2

AMPS/PHASE

2345

-12- -5-

500
250

125

1000

500
250

125

1000

500
250

125

2345

2345

2345

Using Remote Speed Control Potentiometer

The PDO 2035 step motor driver includes an analog signal input connector that can
be used to control the oscillator speed externally. Normally, an on board
potentiometer controls the speed. Whether you use the on-board or external pots,
the accel/decel ramping remains active.

You will need:

• a 1kΩ - 10kΩ linear potentiometer. A multiturn type is recommended.

• a shielded, three wire cable

To install the external pot:

• locate the 5 position front panel connector (marked tach+, tach-, etc)

• prepare a cable with your pot on one end and the connector on the other end:

➤ the potentiometer wiper connects to the WPR terminal
➤ the potentiometer CW terminal connects to the CW terminal
➤ the third pot terminal connects to CCW
➤ the cable shield connects to the third pot terminal

With this arrangement, speed will increase as you turn the external pot clockwise.
The on board trimpots will still control acceleration and deceleration times.

Set the EXT/INT switch to EXT to select the external potentiometer.

cw

external

pot

External Pot Connection

CW

WPR

CCW

Signal +

Signal -

Analog Signal Connection

WPR
CCW

You can also use an external analog voltage to set the speed. The voltage must be
between 0 and 5 VDC. Connect the voltage to the WPR pin and the voltage
return to CCW. For the LO speed range, the conversion is 240 steps/sec/volt. For
the HI speed range, the formula is 2400 steps/sec/volt.

If the analog voltage source generates it's own accel and decel ramps (such as a
servo controller) set the ACCEL and DECEL trimpots at the "no accel/decel" setting
so the oscillator does not interfere with the ramps.

-13-

Mounting the Drive

You should mount the PDO 2035 on the heat transfer plate as shown below. Use #8
or #10 screws.

The amplifiers in the drive generate heat. Unless you are running at 1 amp or
below, you may need a heat sink. To operate the PDO 2035 continuously at maximum
power you must properly mount it on a heat sinking surface with a thermal constant
of no more than 4°C/watt. Often, the metal chassis or enclosure of your system will
work as an effective heat sink.

Never use your drive in a space where there is no air flow

or where the ambient temperature exceeds 50˚C (120˚F)

Never block the vent holes.

!

Never put the drive where it can get wet.

Never allow metal particles near the drive.

Technical Specifications

Amplifiers

Oscillator

Power Supply

Inputs

Pulse Out

Dual, bipolar recirculating H-bridge, pulse width modulated
switching at 20 kHz. 0.125 - 2.0 amps/phase output current, switch
selectable in 0.125 A increments. 50 watts maximum output power.
Automatic idle current reduction, reduces current to 50% of setting
after one second. Min. motor inductance 1 mH.

HI range: 100 - 12000 steps/sec range, 100 Hz resolution
LO range: 10 - 1200 steps/sec, 10 Hz resolution
Speed adjustable by 15 turn potentiometer, or user supplied
external pot, or 0 - 5 volt analog signal. Linear acceleration and
deceleration, individually adjustable from 750 to 200,000
steps/sec/sec, with single turn potentiometers.

110 or 220 VAC input, switch selectable. 50 - 60 Hz. 75 W max.
DC voltage at nominal line voltage: 28 VDC full load, 40 VDC no
load.

Step:

optically isolated, 5-24V, 730 ohm input impedance. Motor

steps on rising edge of step line. 10 µsec minimum low pulse. Step
input used as run/stop in oscillator mode. (closed = run, open =
stop.)

Direction and Enable:

impedance. 50 µsec minimum set up time for direction signal.
Optically isolated, uncommitted (open collector, open emitter)

photo transistor. 30V, 20 mA max.

optically isolated, 5-24V, 2200 ohm input

Physical

Connectors

Fuse

Constructed on black anodized aluminum heat transfer plate.
Covered by heavy gauge ventilated steel housing. 1.75 x 4.0 x 6.8
inches overall. Power on LED. See drawing on back cover for
more information. Ambient temperature range: 0 - 70˚C.

Pluggable screw terminal blocks.
Motor: 4 position. Wire size: AWG 12-22
Signals (step, dir, enable): 4 position, AWG 16-28.
Signals (tach, external speed pot): 5 position, AWG 16-28.
AC Power: 3 position, AWG 12-22.

1A UL rated, fast acting, TR5 style. Available from Digikey (800­DIGIKEY) as part number WK3048BK.

-15--2-

Mechanical Outline

DIR

TACH-

COM

TACH+

STEP

WPR
CCW

CW

SPEED
DECEL

ACCEL

1000

HI

LO

➜

➜

➜

BYPASS

EXT

HALF

123

INT

➜

➜

STEP

POWER

B–

B+
A–

MOTOR

A+

PDO 2035

Step Motor Driver

GND

N

L

AC POWER

1.75"

EN

500
250
125

.245"

CURRENT

(BASE = 125mA)

FULL

12345

STEP

6.80"

.273"

.19"

4.00"

10/2/00 PDO2035.ai

6.00"

Copyright 2000

Applied Motion Products, Inc.

404 Westridge Drive Watsonville, CA 95076

Tel (831) 761-6555 (800) 525-1609 Fax (831) 761-6544