INSTRUCTIONS

I

BULLETIN

810

INVERSE TIME CURRENT RELAYS

IMPORTANT -

Save for future

reference.

Bulletin 810 rela

with a maximu
continuous

of 60 amperes.

OPERATING

FLUID

PISTON

COIL

CORE

DASHPOT

SILICONE

Cross sectional view.

Moving parts are shaded.

DESCRIPTION

-The Bulletin 810 is a

magnetically operated current relay,

with time delay, for use on AC or DC

applications. It has inverse time-current
characteristics which are dependent.
upon the viscosity of the fluid in the
dashpot. However, unlike thermal re-
lays, minimum operating current is inde-
pendent of ambient temperature change
or cumulative heating. The relays are
supplied as standard with

a

normally

closed (NC) contact and an automatic
reset. Available options are a normally
open (NO) contact, hand reset, and
bifurcated contacts with a clear plastic
(poly-carbonate) cover. Tripping current
and time delay are adjustable.

TIME DELAY TRIP

- Current relays are

used when it is desirable to take a motor

off the line in a certain period of time after

a predetermined load condition is

reached. A typical application would be
starting a large motor, where the Bulletin
810 is used to automatically open the
motor starter control circuit if the motor is

CONTACT RATINGS -

AC DC

Maximum Contact Rating Per Pole

NEMA Rating Designation A600

M a x A C

Voltage

V o l t a g e

Carrying

Continuous

Volt-amperes

Ampere

Amperes

Range

Rating

6 0 o r 5 0 Hz Make Break Current Make Break

120
240

6

3

7200 7 2 0 1 1 5 - 1 2 5

7200 7 2 0 2 3 0 - 2 5 0

00.4

0.2

480

1.5 10

7200 7 2 0 5 5 0 - 6 0 0 0.1

600

12

1.2

10

7200

720

I

not up to speed in the maximum accel-
eration time allowed. In this and other
applications of the automatic reset type

relay, three wire control must be used,

with a provision for interrupting the cur-

rent through the relay coil immediately
after the relay trips (see typical schema-

tic diagram on page

3

). On two wire con-

trol applications such as float switches,
pressure switches or thermostats, a
hand reset type overload relay must be
used to provide this protection to the coil.
The relay can carry its rated continuous
current in the non-tripped position only.

OPERATION

- Current through the Bul-

letin 810 operating coil imparts an elec-

tromagnetic force on the movable core.
The vertical position of the core in the
coil is adjustable, thereby providing an

adjustable trip point. When the coil cur-
rent increases to the trip point, the core
raises to operate the contact mecha-
nism. Time delay is provided by a sili-
cone fluid dashpot

mounted below the

core and coil assembly. An adjustable
valve in the dashpot piston provides for
time delay adjustment.

piston reaches an increased diameter in
the dashpot, where it is free, to trip the
contact with a quick action. Time and
current required to complete this cycle
are inversely related as shown by the
time-current characteristics curves on
page

2

.

RESET

- Standard models of the Bulle-

tin 810 are automatically reset as soon

as the current through the coil is inter-
rupted or decreased to approximately
20% of the tripping current. The core is
designed to drop quickly, returning the
contacts to their normal position. A
check valve allows the piston to bypass
the fluid in its return to the bottom of the
dashpot. The action of hand reset mod-
els differs only in that the contacts do not
reset until a lever on the contact block is
operated. There is no waiting period as
with thermal relays.

NORMAL CURRENT -

The electro-

magnetic force caused by normal con-

tinuous current through the operating

coil is not great enough to lift the core
and piston. The relay remains
inoperative.

OVERCURRENT

- When the current

through the operating coil increases
beyond the trip point, the resultant elec-
tromagnetic force causes the core and

piston to raise. Upward motion is damp-

ened through the use of the silicone fluid
dashpot The core rises slowly until the

EFFECTS OF AMBIENT TEMPERATURE

- The minimum operating current

(100% on the time-current characteris-

tics graph) is independent of ambient
temperature at the relay. However, the

operating time at overcurrent varies
directly to the viscosity of the silicone

fluid. Since the viscosity varies inversely

with ambient temperature, the operating
time is also inversely affected. The time

temperature table shows the correction

factors to be applied to the operating
times for various temperatures.

TIME TEMPERATURE RELATIONSHIP

( +

Reference) -

A m b i e n t

Temperature

Operating Time

Correction Factor

2.25 1.80 1.45 1.20 1.0

Publication 810-5.0 - April, 1983

Supersedes Publication 810-5.0, Dated December, 1980