HP 6259B User Manual

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output

voltage

of

the

supply

with

the

drop

across

the

VOLTAGE

controls.

If

these

voltages

are

not

equal,

the

comparator

produces

an

error

signal

that

is

amplified

and

fed

back

to

the

series

regulator

with

the

correct

phase

and

amplitude

to

make

them

equal.

In

this

manner,

the

constant-voltage

comparator

holds

the

output

voltage

at

the

level

established

by

the

VOLTAGE

controls.

4-7

During

constant-current

operation,

the

constant-

current

comparator

detects

any

difference

between

the

voltage

drop

developed

by

load

current

flowing

through

the

current

sampling

resistor

and

the

voltage

across

the

CURRENT

controls.

If

the

two

inputs

to

the

comparator

are

momentarily

unequal,

an

error

signal

is

generated

that

alters

the

conduction

of

the

series

regulator

by

the

amount

necessary

to

reduce

the

error

voltage

at

the

comparator's

input

to

zero.

Hence,

the

I

R

drop

across

the

current

sampling

resistor,

and

therefore

the

output

current,

is

held

at

a

constant

value.

4-8

Since

the

constant-voltage

comparator

causes

the

output

impedance

to

be

low

and

allows

the

output

current

to

change

whenever

the

load

resistance

changes,

while

the

constant-current

comparator

causes

the

output

impedance

to

be

high

and

allows

the

output

voltage

to

change

in

response

to

a

load

resistance

change,

it

is

obvious

that

the

two

comparison

amplifiers

cannot

control

the

output

simultaneously.

For

any

given

value

of

load

resis¬

tance,

the

power

supply

must

act

either

as

a

constant-

voltage

source

or

as

a

constant-current

source.

To

enable

one

comparator

or

the

other

to

take

control,

the

outputs

of

both

comparators

are

connected

to

the

input

of

the

mixer

amplifier

through

an

OR

gate.

4-9

Figure

4

2

shows

the

output

characteristic

of

a

constant-voltage/constant-current

power

supply.

With

no

load

connected,

the

output

current

(IquT^

is

zer0

3nd

the

output

voltage

(Eq

UT

)

equals

the

front

panel

voltage

con¬

trol

setting

(Eg).

When

a

load

resistance

is

connected

to

the

output

terminals

of

the

supply,

the

output

current

increases

while

the

output

voltage

remains

constant.

Point

D

thus

represents

a

typical

constant-voltage

operating

point.

Further

decreases

in

load

resistance

are

accompanied

by

further

increases

in

IqijT

w

'

t

*1

no

c

^

ange

'

n

t

^

ie

out

P

ut

voltage

until

the

output

current

reaches

Ig,

a

value

equal

to

the

front

panel

current

control

setting.

At

this

point

the

supply

automatically

changes

its

mode

of

operation

and

becomes

a

constant-current

source.

Still

further

decreases

in

the

value

of

load

resistance

are

accompanied

by

a

drop

in

the

supply's

output

voltage

with

no

accompanying

change

in

its

output

current.

With

a

short

circuit

across

the

load

terminals,

IquT

~’s

and

^OUT

~

4-10

The

"crossover"

value

of

load

resistance

can

be

defined

as

Rq

=

Eg/Ig.

Adjustment

of

the

front

panel

voltage

and

current

controls

permit

this

"crossover"

resistance

R

c

to

be

set

to

any

desired

value

from

0

to

If

R

L

is

greater

than

Rq,

the

supply

is

in

constant-voltage

operation.

If

Rq

is

less

than

Rq,

the

supply

is

in

constant-

current

operation.

4-11

The

short-circuit

protection

circuit

(see

Figure

4-1)

protects

the

series

regulator

if

the

supply's

output

is

shorted

while

its

controls

are

set

to

a

high

output

voltage

and

current.

The

protection

circuit

monitors

the

voltage

drop

across

the

series

regulator.

If

this

voltage

rises

above

a

preset

level,

the

protection

circuit

limits

the

current

through

the

series

regulator

until

the

preregulator

can

reduce

the

voltage

across

the

series

regulator.

Once

this

voltage

returns

to

normal,

the

short-circuit

protection

circuit

is

turned

off

and

has

no

further

effect

on

the

operation

of

the

supply.

4-12

The

overvoltage

protection

crowbar

monitors

the

output

of

the

supply

and

fires

an

SCR

which

short

circuits

the

supply

if

its

output

exceeds

a

preset

threshold.

The

crowbar

also

sends

a

turn-down

signal

to

the

preregulator

control

circuit.

4-13

The

overvoltage

limit

circuit

protects

the

main

rectifier

diodes

and

filter

capacitors

from

damage

if

the

series

regulator

transistors

short

or

the

voltage

programming

control

opens.

The

circuit

monitors

the

output

voltage

of

the

supply

and

sends

a

turn-down

signal

to

the

preregulator

control

circuit

if

the

voltage

exceeds

approximately

120%

of

its

rated

maximum.

OPEN

E

s

=

FRONT

PANEL

VOLTAGE

CONTROL

SETTING

I

S

=FRONT

PANEL

CURRENT

CONTROL

SETTING-

-Li.'CRmCAL"

OR

"CROSSOVER"

VALUE

C

°

l

s

'

OF

LOAD

RESISTOR

Figure

4-2.

Operating

Locus

of

a

CV/CC

Power

Supply

4-2

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HP 6259B Specifications

General

Brand	HP
Model	6259B
Category	Power Supply
Language	English

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