HP 6038A Service Manual

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3-158

For

example,

assume

the

following

commands

are

sent

to

four

power

supplies

assigned

to

addresses

called

PS1,

PS2,

PS3,

and

PS4:

OUTPUT

PS1;

"HOLD

ON;

ISET

10A"

OUTPUT

PS2;

"HOLD

ON;

ISET

1A"

TRIGGER

PS1

TRIGGER

PS2

OUTPUT

PS3;

"HOLD

OFF;

ISET

BA"

TRIGGER

PS3

OUTPUT

PS4;

"HOLD

OFF;

ISET

5A''

Power

supply

2

will

start

to

change

only

after

power

supply

1

has

started

to

change,

and

power

supply

4

will

start

to

change

only

after

power

supply

3

has

started

to

change.

Note

that

this

feature

concerns

only

the

processing

of

the

HP-IB

command,

the

time

required

for

the

power

supplies

to

settle

at

their

new

values

depends

on

the

load

and

on

the

direction

and

amount

of

change.

3-159

Store/Recall.

The

power

supply

can

store

up

to

16

complete

power

supply

states

except

for

output

on/off.

This

allows

the

operator

to

preset

frequently

used

values,

which

can

then

be

recalled

when

needed

with

a

single

command.

Preset

values

are

stored

and

recalled

using

these

codes

(3

and

11

us¬

ed

as

examples):

STO

3

RCL

11

3-1®3

Sending

a

store

command

causes

a

"snapshot"

of

the

present

machine

state

to

be

stored.

The

power

supply

can

then

be

programmed

with

new

values.

Note

that

only

those

values

to

be

changed

need

be

reprogrammed.

For

example,

if

the

following

command

strings

were

sent

in

listed

order

to

the

power

supply,

the

string

stored

in

register

1

would

include

a

current

setting

of

2A

and

CC

foldback

in

addition

to

a

voltage

setting

of

8V.

The

string

stored

in

register

2

would

include

a

voltage

setting

of

8V

in

addition

to

a

current

setting

of

10A

and

CV

foldback.

Note

that

the

power

supply

output

would

not

change

while

the

three

preset

states

were

being

stored

because

the

output

was

turned

off.

The

store/recall

designators

need

not

be

assigned

in

consecutive

order,

but

they

must

be

in

the

range

of

0

to

15.

OUT

OFF

VSET

SV;

ISET

2A:

FOLD

CC;

STO

0

VSET

8V;

STO

1

ISET

lOA;

FOLD

CV;

STO

2

3-161

Status

Register.

The

power

supply

maintains

a

9

bit

status

register

that

reflects

the

present

state

of

the

unit.

Each

of

the

nine

bits

represents

a

separate

condition;

when

the

con¬

dition

is

true

the

corresponding

bit

is

1.

Bits

are

assigned

as

shown

in

Table

3-9.

3-162

The

status

register

can

be

read

by

sending:

STS?

and

addressing

the

power

supply

to

talk.

The

response

from

the

power

supply

is

in

this

format:

STS

XXX

where

xxx

is

a

string

of

ASCII

decimal

digits.

These

digits

specify

an

integer

which

is

equal

to

the

sum

of

the

bit

weights

of

the

true

conditions.

3-163

For

example,

if

bits

for

both

ERR

(1281

and

CC

(2)

are

set,

the

power

supply

would

send

ASCII

digits

1

3

0

(128

+

2

==

130).

3-164

Bits

remain

set

in

the

status

register

as

long

as

the

corresponding

conditions

are

true.

Table

3-9.

Status

Register

Bit

Position

8

6

4

Bit

Weight

256

128

64

32

16

Condition

Rl

ERR

FOLD

AC

OT

OV

OR

CC

CV

CV

Constant

Voltage

Mode

CC

Constant

Current

Mode

OR

Overage

OV

Overvoltage

Protection

Circuit

Tripped

Ot

Overtemperature

Protection

Circuit

Tripped

AC

AC

Line

Dropout

or

Out

of

Range

FOLD

Foldback

Protection

Circuit

Tripped

ERR

Remote

Programming

Error

Ri

Remote

Inhibit

(INH)

3-1^

Accumulated

Status

Register.

Reading

the

status

register

provides

the

controller

only

the

state

of

the

power

sup¬

ply

at

the

time

STS?

was

received.

A

condition

that

lasts

only

momentarily

may

not

be

observed

even

with

frequent

polling

of

the

status

register.

To

ensure

that

a

temporary

change

can

be

noted

by

the

controller,

the

power

supply

maintains

an

ac¬

cumulated

status

(astatus)

register.

Table

3-3

describes

the

astatus

register

as

well

as

the

status

register.

A

bit

in

the

astatus

register

will

be

1

if

the

corresponding

bit

in

the

status

register

has

been

1

at

any

time

since

the

astatus

register

was

last

read.

3-166

The

astatus

register

can

be

read

by

sending:

ASTS?

and

addressing

the

power

supply

to

talk.

The

response

from

the

power

supply

is

in

this

format:

ASTS

xxx

where

xxx

is

decoded

the

same

way

as

in

the

status

register

readback.

3-167

The

astatus

register

is

reset

to

the

present

value

of

the

status

register

immediately

after

it

is

read

by

the

ASTS?

query.

3-168

Mask

and

Fault

Registers.

The

power

supply

has

two

additional

registers,

the

mask

register

and

the

fault

register,

both

of

which

are

arranged

like

the

status

register

(Table

3-9).

3-22

Table of Contents

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HP 6038A Specifications

General

Brand	HP
Model	6038A
Category	Inverter
Language	English

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