1536-001-705 - Safran Electrical & Power

CIRCUIT BREAKERS

2 LABINAL POWER SYSTEMS TF300-1E

LABINAL POWER SYSTEMS TF300-1E 3

CIRCUIT BREAKER CATALOG

Capabilities and Product Overview

Single Phase, Circuit Breakers

Three Phase, Circuit Breakers

Remote Controlled Circuit Breakers

Additional Circuit Breaker Products

Accessories

Reference

Table of Contents

Descriptive Index

Fast Information Finder

Part Number to Page Index

Capabilities and Product Overview

Circuit Breaker Product Overview

Organizational Capabilities

Arc Fault Circuit Interrupt (AFCI) Technology

Notes

Single Phase, Thermal Circuit Breakers

Series 160 - 50 to 100A

Series 170 - 125 to 200A

Series 700 - 5 to 50A

Series 1500 - ½ to 10A

Series 4001 - 1 to 25A

Series 4200 - 1 to 25A

Series 4310 - 1 to 25A

Three Phase, Thermal Circuit Breakers

Series 940 - 50 to 100A

Series 1526 - 1 to 15A

Series 1536 - 5 to 50A

Series 4330 - 1 to 20A

Remote Controlled Circuit Breakers

Remote Power Controllers

Additional Circuit Breaker Products

Additional Products

Accessories

Rubber Boot Assembly

Reference

Glossary

Military to Labinal Power Systems Part Number Index

6-7

8-9

12-13

14-15

16-17

18-19

20-21

22-23

24-25

26-27

28-29

30-31

32-33

34-37

38-39

Table of Contents

4 LABINAL POWER SYSTEMS TF300-1E

DESCRIPTIVE INDEX

Accessories 40

AFCI 10

Auxiliary Terminal

4200 Series 22

RCCB 34

RPC 38

Capabilities 8

Cross Reference

Part Number to Page 5

Military P/N to Labinal Power

Systems Part Number 42

Fast-Trip (Load Protection)

1500 Series 18

1526 Series 28

High Vibration

160 Series 12

700 Series 16

4001 Series 20

4310 Series 24

4330 Series 32

Hot-wire

1500 Series 18

1526 Series 28

Indicator Control Unit (ICU)

1500 Series 18

Long Button

700 Series 16

4200 Series 22

4310 Series 24

4330 Series 32

Military Approved Devices

160 Series 12

170 Series 14

700 Series 16

4001 Series 20

4200 Series 22

4310 Series 24

4330 Series 32

RCCB 34

Random Vibration

700 Series 16

4001 Series 20

4200 Series 22

Remote Controlled

RCCB 34

RPC 38

Single Phase

160 Series 12

170 Series 14

700 Series 16

1500 Series 18

4001 Series 20

4200 Series 22

4310 Series 24

RCCB 34

Temperature Compensated

1500 Series 18

1526 Series 28

1536 Series 30

4310 Series 24

4330 Series 32

Three Phase

940 Series 26

1526 Series 28

1536 Series 30

4330 Series 32

RCCB 34

LABINAL POWER SYSTEMS TF300-1E 5

FAST INFORMATION FINDER

Find Information Fast

• Have an Labinal Power

Systems part number

and need more

information?

Use the part number to

page index on this page to

get the exact page of the

full product listing.

• Have a Military part

number and need

applicable Labinal Power

Systems part number?

Use the Military part

number Index in the back

of this catalog.

• Know the type of prod-

uct you want, but not a

specific part number?

Use the detailed Index on

the facing page to find the

section with those prod -

ucts or use the Product

Overview for a quick side

by side comparison.

• Looking for a specific fea-

ture or attribute? Use the

Descriptive Index or

Product Overview to quick-

ly determine which prod-

ucts fit your application.

• Need additional informa-

tion not contained in this

catalog? For technical

questions, application

assistance, or the name of

your local authorized dis-

tributor, call 1- 800-955-

7354.

Labinal Part No. Page No.

60- 40

160- 12

160-012- 12

160-086- 12

100- 40

130- 40

140- 40

170- 14

170-001- 14

180- 40

260- 40

270- 40

700- 16

700-001- 16

700-089- 16

700-092- 16

780- 40

920- 40

930- 40

940- 26

940-006- 26

960- 40

970- 40

1200- 40

1500- 18

1500-052- 18

1526- 28

1526-005- 28

1536- 30

1536-005- 30

1538- 40

1540- 40

1585- 40

2100- 40

4001- 20

4001-001- 20

4001-008- 20

4001-011- 20

4200- 22

4200-001- 22

4200-003- 22

4200-004- 22

4200-006- 22

4200-007- 22

4310- 24

4310-001- 24

4310-005- 24

4310-019- 24

4310-024- 24

Labinal Part No. Page No.

4330- 32

4330-001- 32

4330-007- 32

4330-008- 32

4330-009- 32

4380- 40

8500- 40

9500- 40

SM600BA - 34

SM600BA125 (+) 38

SM601BA - 34

Part Number to Page Index

6 LABINAL POWER SYSTEMS TF300-1E

CIRCUIT BREAKER PRODUCT OVERVIEW

PLEASE CONSULT DETAILED PRODUCT DESCRIPTIONS FOR MORE INFORMATION.

Catalog Location

MS Qualified

Description

Current Rating

Voltage rating

(For Interrupting Capacity)

Calibration @25° C

(percent of amperage rating)

Trip Time (in seconds at 25° C)

200% Overload

500% Overload

1000% Overload

Interrupting Capacity

(Rating Dependent)

Weight g (lb.)

Major Dimensions

LxWxH (inches)

Notes

1500 Series

pgs. 18-19

MS22074(4)

Miniature, Fast-trip,

Ambient Temperature

Compensated

0.5 to 10 Amperes

120 VAC, 400 Hz;

30 VDC

115% Hold

138% within one hour

0.5-3A / 4.5-10A

0.4 to 3.0 / 0.8 to 3.6

0.06 to 0.4 / 0.08 to

0.5(2)

0.02 to 0.18 / 0.02 to 0.2(3)

600 to 1000A @ 120V AC

6,000A @ 30V DC

45g (.099 lb)

1.843 x 1.137 x 0.750

Meets requirements for

use as an RCCB ICU.

I2t function is per speci-

fication.

4001 Series

pgs. 20-21

MS22073

Sub-miniature, Precision,

Lightweight

1 to 25 Amperes

120 VAC, 400 Hz;

30 VDC

115% Hold

150% within one hour

All amperages

2.0 to 20.0

0.16 to 2.0

0.046 to 0.5

500 to 3500A @ 120V AC

2,000 to 6,000A @ 30V DC

33g (.073 lb)

1.852 x 0.703 x 0.593

Available in MIL spec

approved high vibration and

random vibration models

and variations in termina-

tion and mounting. 25

ampere rating not MIL

spec approved.

700 Series

pgs. 16-17

MS25244 (MS25017)(4)

Miniature, High

Interrupting Capacity,

Rugged Performer

5 to 50 Amperes

120 VAC, 400 Hz;

30 VDC

115% Hold

138% within one hour

All amperages

15.0 to 55.0

1.4 to 5.0(2)

0.5 to 1.5(3)

3500A @ 120V AC

6,000A @ 30V DC

43g (.095lb)

1.860 x 1.094 x 0.750

Available with auxiliary

switch. P-bracket allows

variation of mounting. 40

& 50 ampere ratings not

MIL spec approved.

(1) Balanced, Unbalanced load 145%

(2) 400% Overload information available in detailed product listing

(3) 600% Overload information available in detailed product listing

(4) Designed to requirements of applicable specification. Contact Business Unit for

details.

FOR CONFIGURATIONS NOT NOTED, CONTACT BUSINESS UNIT

SINGLE PHASE

160 Series

pgs. 12-13

MS25361

Heavy-Duty, High

Current Ratings

50 to 100 Amperes

120 VAC, 400 Hz;

30 VDC

105% Hold

138% within one

hour

All amperages

15.0 to 65.0

1.3 to 6.0(2)

0.5 to 2.0(3)

3500A @ 120V AC

6,000A @ 30V DC

113g (.250lb)

2.250 x 1.812 x 0.750

MIL spec approved

high vibration model.

170 Series

pgs. 14-15

MS25017(4)

Heavy-Duty, Very High

Current Ratings

125 to 200 Amperes

115 VAC, 400 Hz;

28 VDC

100% Hold

125% within one

hour

All amperages

15.0 to 70.0

1.5 to 6.5(2)

0.5 to 2.5(3)

2500A @ 115V AC

3,000A @ 28V DC

130g (.286lb)

2.250 x 1.812 x 1.00

Mounting dimensions

compatible with

Military Standard

Drawing require-

ments of MS25017 of

MIL-C5809.

LABINAL POWER SYSTEMS TF300-1E 7

Catalog Location

MS Qualified

Description

Current Rating

Voltage rating

(For Interrupting Capacity)

Calibration @25 C

(percent of amperage rating)

Trip Time (in seconds at 25 C)

200% Overload

500% Overload

1000% Overload

Interrupting Capacity

(Rating Dependent)

Weight g (lb.)

Major Dimensions

LxWxH (inches)

Notes

940 Series

pgs. 26-27

Heavy Duty, High

Capacity Protection

50 to 200 Amperes

120 VAC, 400 Hz

105% Hold

138%(1) within

one hour

All amperages

15.0 to 70.0

1.2 to 6.0(2)

0.4 to 2.0(3)

1200A @ 120V AC

388g (.854 lb)

2.437 x 2.187 x

2.631

All data listed is

applicable to the

940 Series.

Consult Labinal

Power Systems for

details on the 180,

920, 930, 960, and

970 Series devices.

1536 Series

pgs. 30-31

Miniature,

Lightweight,

Ambient

Temperature

Compensated

5 to 50 Amperes

120 VAC, 400 Hz

105% Hold

138%(1) within

one hour

All amperages

10.0 to 70.0

1.4 to 6.0(2)

0.35 to 1.4(3)

1000A @ 120V AC

130g (.290 lb)

2.170 x 2.160 x

1.312

Single hole mount

and small size facili-

tate easy installation.

4330 Series

pgs. 32-33

MS14154

Sub-miniature,

Lightweight,

Ambient

Temperature

Compensated

1 to 25 Amperes

120 VAC, 400 Hz

110% Hold

145% within one

hour

All amperages

4.0 to 20.0

0.40 to 2.00

0.10 to 0.53

2000A @ 120V AC

68g (.150 lb)

1.381 x 1.840 x

0.781

MIL spec approved

high vibration and

long button models.

25 ampere rating is

not MIL spec

approved. Single

Hole mount.

Variation in termina-

tion and mounting

available.

1526 Series

pgs. 28-29

Fast-trip, Hot-wire,

Ambient Temperature

Compensated

1 to 15 Amperes

120 VAC, 400 Hz

115% Hold

138% within one

hour

1-7.5A / 10-15A

0.35 to 4.0 / 3.0 to 10.0

0.06 to 0.45 / 0.4 to

0.95(2)

0.02 to 0.15 / 0.15 to

0.5(3)

300A @ 120V AC

154g (.340lb)

1.875 x 2.063 x

1.300

For additional amper-

age ratings consult

business unit.

CIRCUIT BREAKER PRODUCT OVERVIEW

PLEASE CONSULT DETAILED PRODUCT DESCRIPTIONS FOR MORE INFORMATION.

4200 Series

pgs. 22-23

MS26574

Sub-miniature, High-

Performance, Lightweight

0.5 to 25 Amperes

120 VAC, 400 Hz;

28 VDC

115% Hold

150% within one hour

All amperages

2.0 to 20.0

0.16 to 1.2

0.046 to 0.8

500A to Unlimited @ 120V AC

2000A to Unlimited @

28V DC

22g (.048 lb)

1.525 x 0.780 x 0.593

MIL spec approved ran-

dom vibration and long

button models. Available

with auxiliary switch and

variations in termination

and mounting. 0.5 and

25 ampere rating not MIL

spec approved.

4310 Series

pgs. 24-25

MS3320 (AS33201)

Sub-miniature,

Lightweight, Ambient

Temperature

Compensated

1 to 25 Amperes

120 VAC, 400 Hz;

28 VDC

115% Hold

138% within one

hour

All amperages

5.0 to 20.0

0.5 to 2.0

0.12 to 0.53

2000 to 3500A @ 120V AC

6,000A @ 28V DC

25g (.055lb)

1.343 x 0.781 x 0.593

MIL spec approved

long button and high

vibration models.

Available with auxiliary

switch and variations

in termination and

mounting. 1.5 & 25

ampere ratings not

MIL spec approved.

SINGLE PHASE THREE PHASE

8 LABINAL POWER SYSTEMS TF300-1E

CAPABILITIES

Market Trends

Aircraft Original Equipment

Manufacturers (OEM) are

continuously pursuing

efficiencies associated with

the design and manufacture of

aircraft platforms. Additionally,

the OEM's are working on

increasing the functionality of

components while reducing

operating and life cycle costs.

These activities are leading to

the migration of engineering

and system design activities

to Tier 1 system integrators

and their supply partners such

as Labinal Power Systems. By

optimizing relays, circuit

breakers, and power

distribution panel performance

to satisfy application

requirements; cost, size,

weight can be minimized

while enhancing performance.

What Problem Does

Labinal Power Systems

Solve?

Aircraft OEM’s have already

discovered outsourcing power

distribution management

requirements to Tier 1-system

integrators and their vendor

base is an effective alternative

that mitigates risk and

leverages the subsystem and

component manufacturer

expertise. The success of such

outsourcing efforts benefits

the OEM and leads to more

reliance on qualified Tier

1-system integrators for

electrical systems. Labinal

Power Systems Aerospace

Group's Fluid & Electric

Distribution (FED) Division

objective is to be the logical

candidate for the supply of

aerospace components as

well as subsystems that

address power distribution and

circuit protection.

Labinal Power Systems offers

Integrated Circuit Breaker

Panels as a Line Replaceable

Unit that reduce the OEM

production installation time

and eliminates component

compatibility / interface issues.

This can shorten design to

market cycle time and reduce

costs by outsourcing

subsystems to qualified

suppliers with the requisite

engineering skill and

manufacturing capabilities.

The Labinal Power

Systems Solution

Labinal Power Systems is an

attractive partner in the design

and development of integrated

circuit breaker components

and subsystem panels. Our

development process employs

sound methodology to

identify, assess, and manage

program risk. The components

of this approach include

Phase-Gate Reviews, Project

Management, and Six Sigma

for Design and Development.

This process in conjunction

with Labinal Power Systems'

extensive Product Portfolio

and Capabilities enable Labinal

Power Systems' Aerospace

Group's FED Divison to be a

single source supplier for

power protection, distribution,

and switching components.

The Systems Integrators have

the option of sourcing

pedigree circuit breakers for

their panel designs or

subcontracting the entire

Integrated Circuit Breaker

Panel to Labinal Power

Systems.

Phase-Gate Reviews

This process organizes

product development activities

from the idea through product

launch into a series of phases.

The activities within each

phase are multifunctional, and

are designed to provide

information that progressively

reduces risk. Consistent

application of the process

promotes successful on-time

product development efforts.

Project Management

Product development projects

involve the iterative planning,

execution and control of

project team activities in order

to meet the competing

demands of scope, timing,

cost, risk and quality. Project

management methodology

affords the application of

knowledge, skills, tools and

techniques to meet these

requirements.

Six Sigma for Design and

Development

Six Sigma for Design and

Development is a

methodology using normal Six

Sigma tools, but applies them

early in the design process.

This methodology instills the

product development process

with the same Six Sigma

process rigor found in Labinal

Power Systems manufacturing

to create successful products

in a competitive marketplace.

Product Portfolio

Labinal Power Systems'

complete product portfolio

allows flexibility to partner

with customers having a

variety of circuit breaker

subsystem and component

needs. Labinal Power

Systems' engineers design

additional value into traditional

thermal circuit breaker

components and subsystems

through electronics, while

balancing customer concerns

for size, weight, cost, and

complexity. Arc Fault Interrupt

Technology is a prime example

of value add engineering. A

proven design package (i.e.

thermal circuit breaker) is

modified so its functionality

addresses emerging airline

carrier and Federal Aviation

Administration needs to

protect the aging aircraft fleet

and satisfy SFAR 88

requirements.

The Labinal Power Systems

product portfolio is recognized

in the aerospace industry as

MIL qualified for performance

rated switching products.

These components support

the design and manufacture of

primary power distribution

panels and circuit breaker

panels as well. The Labinal

Power Systems product

portfolio includes:

• Electro-mechanical thermal

circuit breakers (0.5 to 300

amperes) - single phase or

three phase thermally

actuated devices offered in

conventional design or with

integrated Arc Fault Circuit

Interrupt technology.

• Remote Control Circuit

Breakers (5 to 125

amperes) - single phase or

three-phase devices sold

separately or as a

subsystem when combined

with a necessary indicator

control unit (0.5 ampere

circuit breaker).

• Electro-mechanical Remote

Power Controllers (125 to

200 amperes) – single-phase

devices sold separately or

as a subsystem when

combined with a necessary

indicator

control unit (0.5

ampere

circuit breaker).

• Smart Contactors with

current sensing protection

or Arc Fault Circuit Interrupt

technology

LABINAL POWER SYSTEMS TF300-1E 9

CAPABILITIES

• 28 VDC Contactors (50 to

1000 amperes)

• 270 VDC Contactors (25 to

350 amperes)

• 115/230 VAC 400 Hz Contac-

tors (30 to 430 amperes)

• 750 VDC Contactors (100

to 600 amperes)

• A variety of aerospace

switches (rocker, toggle,

pushbutton and limit).

Labinal Power Systems

Capabilities

• Proven excellence in

component and subsystem

design, development, test

ing, qualification, and

production for both military

and commercial aerospace

applications.

• A manufacturing organization

that emphasizes customer

satisfaction by focusing on

cost, quality, and delivery of

the product portfolio.

• Altitude / temperature test

ing chambers simulating

altitudes to 80,000 feet and

temperatures from -85°F to

257°F (-65°C to 125°C).

• Test capabilities of

115/200 VAC 400Hz to

3600 amps, 28 VDC to

10,000 amps, 270/350/475

VDC to 1,500 amps.

• Environmental tests for

Sand and Dust, Shock, and

Vibration.

• Latest CAD/CAM finite

element analysis,

stereolitho- graphic

techniques, and

PRO E design.

• Model Shop flexibility to

respond to design changes

and the rapid turn around

of prototypes.

The Labinal Power

Systems Difference

There are a number of circuit

breaker suppliers in the

aerospace market. However,

none of them possess the

vertical integration needed to

engineer and manufacture

both circuit breaker

components and subsystems

that include both primary

power distribution panels and

circuit breaker panels.

Labinal Power Systems affords

its customers the following

difference:

• Strong brand recognition,

customer loyalty, and

demonstrated market pres-

ence for over 80 years.

• Ability to leverage the

company's size, financial

strength, and scope to

drive superior results.

Labinal Power Systems

Aerospace Group has the

ability to leverage the

engineering resources of a

multi-billion dollar company.

• An extensive product port

folio that compliments

integrated sub-system

design competency.

• A flat organizational structure

that allows for the optimal

blend of best value technical

approach and test support

within budget and schedule

constraints.

• Dedicated program

managers that understand

and communicate "voice of

the customer".

• Design software that

promotes concurrent

engineering and the ex-

change of customer data.

• Co-located engineering,

manufacturing, and devel-

opment resources promote

robust product development

and product support.

Labinal Power Systems'

unique product portfolio, it's

ability to design and

manufacture components and

subsystems, and customer

centric strategy, mitigates the

risk associated with new

aircraft circuit protection

systems. Labinal Power

Systems is an ideal candidate

to consider for engineering

and manufacturing

collaboration on all future

commercial, General Aviation,

and military programs.

10 LABINAL POWER SYSTEMS TF300-1E

ARC FAULT CIRCUIT INTERRUPT

The Aging Aircraft

Dilemma

Today, in the Unites States

there are more than 22,000

civil and military aircraft in

operation. Many are over 20

years old. To maintain airwor-

thiness, many have been ret-

rofitted with new engines,

new avionics, improved

hydraulic systems and even

new interiors. However, one

element in older aircraft that

will not change is the miles

and miles of electrical wiring

buried within the aging air-

frame. Over time these wire

bundles and their protective

insulation can deteriorate, pro-

viding the perfect environment

for an electrical short and a

potential fire hazard.

Until recently, aircraft circuit

breakers were considered the

first line of defense against

electrical hazards. However,

research has shown that arc

faults, with temperatures as

high as 6000°C, can go com-

pletely undetected by circuit

breakers developed over 30

years ago. The unfortunate roll

call of recent aircraft accidents

blamed on explosions or fires

suspected to have been trig-

gered by electrical wire arcing

is familiar. And the potential

for additional incidents may be

even more sobering. Safety

reports show numerous, non-

fatal incidents of smoke in the

cockpit and electrical faults

attributed to wire arcing.

Navy Statistics show 64 in-

flight electrical fires between

July 1995 and December 1997.

On the civil side, Federal

Aviation Administration (FAA)

data from 1989 through July

1998 show 622 reports of

smoke in the cockpit or cabin.

"No-Fault Design" By Rick

DeMeis, Design News

Sept 4, 2000.

Why Don't Aircraft

Circuit Breakers Provide

Protection from Arcing

Faults?

Aerospace circuit breakers are

designed to protect wiring

from thermal damage that

occurs during an over-current

situation. They are able to do

this by deploying a bi-metallic

element that mimics that ther-

mal effect of current on a

wire's insulation.

The reason circuit breakers do

not provide protection from

arcing events is that they are

not designed to. The character-

istics of an arcing event

include fault currents that are

sporadic or sputtering, have

values several times the

breakers rating, and the arc

event is of such a short dura-

tion that the circuit breaker

has little time to react.

Labinal Power Systems'

Arc-Fault Circuit

Interrupt (AFCI)

Technology - The Next

Generation of Circuit

Protection

"Present commercial airplane

circuit breakers do not detect

and react to arcing faults asso-

ciated with the chafing and

subsequent intermittent arcing

when bare wires contact

metal airplane structure or

other bare conductors…"

FAA Aging Transport Non-

Structural Systems Plan, July

1998, page 17 Incorporating

AFCI Into Thermal Protection

Devices

Labinal Power Systems' AFCI

protective device recognizes

the unique signatures of arc-

ing faults and acts to interrupt

the circuit. Labinal Power

Systems' Arc-Fault Circuit

Interrupt technology utilizes

microelectronics to monitor

and analyze a circuit's current

waveform. This logic circuit uti-

lizes algorithms developed

over the last 10 years. These

algorithms "look" directly for

the randomness in the 400Hz

current signal to determine if

an arcing event has occurred.

If the logic circuit determines

an arc fault exists, a signal is

sent to the circuit protection

device, which will safely shut

down the circuit in question.

Recognizing An

“Acceptable Arc” From

An “Unacceptable Arc" -

Elimination of the

"Nuisance" Trip

Labinal Power Systems'

unique AFCI technology moni-

tors the reaction of the current

waveform to an arcing incident

to ensure that the AFCI circuit-

ry can discriminate between

an unacceptable arc and an

acceptable arc. An unaccept-

able arc would be any situa-

tion such as two wires or a

wire to ground electrical arc

due to exposed conductors.

An acceptable arc could be

the power surge in the start-

ing of a hydraulic pump or

another electrically driven, pri-

mary or auxiliary support com-

ponent.

In order to distinguish an

acceptable arc from an unac-

ceptable arc, sophisticated arc

fault algorithms employ vari-

ous statistical methods that

are capable of identifying the

degree of chaos or random-

ness in the current signal. This

prevents the chance of nui-

sance tripping even in situa-

tions where the switching of

devices involves in-rush tran-

sients resulting from motor or

pump start-ups.

Integrating the AFCI circuitry

into the standard aerospace

circuit breaker required the

miniaturization of the present

mechanism to make room for

the necessary electronics and

to provide a way to power the

logic circuit. As a result of this

effort, Labinal Power Systems'

AFCI circuit breaker has many

added benefits:

• Offer same size as current

circuit breakers listed in

MS24571 and MS14105.

• Provides separate visible

indication of an arc fault vs.

over-current fault.

• Include independent

operation of the electro-

mechanical portion of

circuit breaker so that the

circuit breaker remains

operational even with an

AFCI electronics failure.

The AFCI technology can be

packaged into a form / fit line

replaceable unit (LRU) such as

a thermal circuit breaker.

Labinal Power Systems' AFCI

solution builds added safety

into the LRU without the need

to modify the existing electri-

cal architecture of the aircraft.

AFCI technology is easily

tailored t

o an application or

device. Labinal Power Systems'

product portfolio

of thermal

circuit breakers, relays,

and

Remote Control Circuit

Breakers

can provide the required

arc fault

protection to address every

platform electrical protection

requirement.

LABINAL POWER SYSTEMS TF300-1E 11

NOTES

12 LABINAL POWER SYSTEMS TF300-1E

SERIES 160 COMPACT PROTECTION FOR HIGHER CURRENT RATINGS

Single-Pole High

Performance

Qualified

To MIL-C-5809 and MS25361.

Protection For Heavy-Duty

Systems

Protects circuits from 50 to 100

amperes.

Heavy-Duty Construction

Breaker features large contacts

and wide terminals.

Not Sensitive To Frequency

May be used on either AC or DC

circuits.

Performance Rated Circuit

Breaker

The 160 series has the recogni-

tion of being the most specified

heavy-duty aircraft type circuit

breaker in the 50 to 100 ampere

rating range.

Designed to protect heavy-duty

aircraft and non-aircraft electrical

systems, this trip-free breaker

features separate, durable, over-

load and mechanical latches. In

addition, the overload latch is

designed for precise operation.

Extra heavy contacts are spring-

loaded to maintain high-contact

pressure and assure long life.

Contact material has high resis-

tance to arcing and the corrosive

action of moisture —thus assur-

ing low voltage drop throughout

the life of the breaker.

PERFORMANCE DATA

Interrupting Capacity 6,000A at 30V, DC; 3,500A at 120V, 400 Hz., AC

Endurance At 120VAC, 400 Hz.: inductive load — 5,000 cycles; resistive load — 5,000 cycles; at 30V, DC: induc-

tive load — 2,500 cycles; resistive load — 5,000 cycles; mechanical cycling, no load — 5,000 cycles

Overload Cycling 100 operations at 200% rated current and rated voltage

Dielectric Strength At sea level, 25°C 1,500V, AC. At 70,000 ft., 71°C 500V, AC

Insulation Resistance Not less than 100 megohms at 500V, DC

Voltage Drop 0.15V, maximum

Vibration Meets specification MIL-STD-202, Method 204, Condition A–10G, 10–500 Hz.

Shock Exceeds 30G’s, 11 Millisec (half-sine pulse) MIL-STD-202, Method 213 Test J

Acceleration Exceeds 10G’s

Weight 113 grams (0.25 lbs.)

ORDERING INFORMATION

* AT RATED NOMINAL CURRENT

3 Phase variants are available as a 940 Series.

For other amperage ratings and configurations, consult the Business Unit.

Standard

OVERLOAD CALIBRATION DATA

Specification

Table

@ 25°C @ +71°C @ -40°C Test Time

ParametersMIN MAX MIN MAX MIN MAX

Must Hold 105 — 70 — 125 —% For 1 Hour

Must Trip —138 —125 —165 % Within 1 Hour

200% Overload 15 65 — — — — Seconds

400% Overload 210 — — — — Seconds

600% Overload 1 4 — — — — Seconds

Trip curve available

STANDARD HIGH VIBRATION

MS APPROVAL

STATUS

AMPERE

RATING

VOLTAGE DROP

MAX. * MS P/N

LABINAL MP

P/N MS P/N

LABINAL MP

P/N

MS Approved 50 0.15 MS25361-50 160-012-50 MS25361-50V 160-086-50

MS Approved 60 0.15 MS25361-60 160-012-60 MS25361-60V 160-086-60

MS Approved 70 0.15 MS25361-70 160-012-70 MS25361-70V 160-086-70

MS Approved 75 0.15 MS25361-75 160-012-75 MS25361-75V 160-086-75

MS Approved 80 0.15 MS25361-80 160-012-80 MS25361-80V 160-086-80

MS Approved 90 0.15 MS25361-90 160-012-90 MS25361-90V 160-086-90

MS Approved 100 0.15 MS25361-100 160-012-100 MS25361-100V 160-086-100

LABINAL POWER SYSTEMS TF300-1E 13

SERIES 160

DIMENSIONS

TRIP CURVE

.500 ± .005 DIA.

#28 (.140) DIA.

2 PLACES

.906 ± .005

1.812 ± .010

RECOMMENDED MOUNTING

.750

MAX.

AMPERE RATING

IN WHITE FIGURES

.906

100

1.812

.138-32UNC-2B INTEGRAL

SELF LOCKING NUTS

(2 REQUIRED)

.485 MIN.

CLOSED

MOUNTING PLATE

1.580

MAX.

.735

.090

1.470

2.189 MAX.

2.250

MAX.

LINE TERMINAL

.250-28UNF-2AX.500L

CAP SCREW WITH FLAT

WASHER MS35308-303

LOCKING NUTS

2.047

.250

BLACK SLEEVE

.480 DIA.

.330 DIA.

.410

DIA.

.750

TRIPPED

WHITE TRIP

INDICATOR

BLACK

ACTUATOR

Time To Open (Trip) In Seconds

Percentage Of Circuit Breaker’s Rated Current

10000

1000

100

0.1 1.0 10 100 1000 10000

TYPICAL

TRIP

CURVE

AT 25°C

138%

105%

14 LABINAL POWER SYSTEMS TF300-1E

SERIES 170 PROTECTION FOR CURRENT RATINGS OF 125 TO 200 AMPERES

Single-Pole High

Performance

Protection For Very High

Current Rated Circuits

Protects circuits from 125 to 200

amperes.

Meets MS Mounting

Dimensions

Has mounting dimensions com-

patible with Military Standard

Drawing requirements of

MS25017 of MIL-C-5809.

Heavy-Duty Components

Extra heavy contacts and wide

sturdy terminals.

Trouble-Free Contact Life

Contacts mounted on spring-

loaded pivots to maintain high-

contact pressure and to improve

arc quenching capability.

Performance Rated Circuit

Breaker

The 170 series is the only com-

pact, reliable, heavy-duty aircraft-

type circuit breaker available in

the 125 to 200 ampere range.It is

the only device in this range that

has mounting dimensions com-

patible with Military Standard

Drawing MS25017. Designed to

protect heavy-duty aircraft electri-

cal systems, the breaker features

separate overload and mechanical

latches. The unit’s trip-free design

prevents it from being held

closed manually against any over-

load that would ordinarily cause it

to open. The breaker may be

used on either AC or DC circuits.

OVERLOAD CALIBRATION DATA

Specification

Table

@ 25°C @ +71°C @ -40°C Test Time

ParametersMIN MAX MIN MAX MIN MAX

Must Hold 100 — 70 — 110 —% For 1 Hour

Must Trip —125 —125 —160 % Within 1 Hour

200% Overload 15 70 — — — — Seconds

400% Overload 212 — — — — Seconds

600% Overload 1 5 — — — — Seconds

ORDERING INFORMATION

Ampere Rating Voltage Drop Max.* Part Number

125 .100 170-001-125

140 .100 170-001-140

150 .100 170-001-150

160 .100 170-001-160

180 .100 170-001-180

200 .10 0 170-001-200

* At rated nominal current.

Three phase variants are available as a 970 Series. Also available as a 180 Series device for ratings up to 300 amperes.

For other amperage ratings and configurations, consult the Business Unit.

PERFORMANCE DATA

Interrupting

Capacity

3,000A at 28V, DC; 2,500A at 115V, AC

Endurance At 120V, 400 Hz.: inductive load — 2,500 cycles; resistive load — 5,000 cycles;

at 30V, DC: inductive load — 1,000 cycles; resistive load — 5,000 cycles;

mechanical cyclin g, no load — 5,000 cycles

Overload Cycling 100 operations at 200% rated current and rated voltage

Dielectric Strength 1,500V, minimum

Insulation

Resistance

Not less than 100 megohms at 500V, DC

Voltage Drop 0.1 volt maximum at rated current

Vibration Exceeds MIL-STD-202, Method 204, Condition A

Shock Exceeds 30G’s, 11 Millisec (half-sine pulse) MIL-STD-202, Method 213 Test J

Acceleration Exceeds 10G’s

Weight 130 grams (0.286 lbs.)

LABINAL POWER SYSTEMS TF300-1E 15

SERIES 170

DIMENSIONS

TRIP CURVE

1.000

MAX.

AMPERE RATING

IN WHITE FIGURES

.906

200

1.812

2 #6-32 INTEGRAL

SELF LOCKING NUTS

.500 ± .005 DIA.

.140 DIA.

2 PLACES

.906 ± .005

1.812 ± .010

RECOMMENDED MOUNTING

.250 CLOSED

MOUNTING PLATE

1.570

MAX.

.719

.093

1.438

2.189 MAX.

2.250

MAX.

LINE TERMINAL

2-1/4-28 X 1/2 HEX. HEAD SCREW

AND FLAT WASHER

1/4-28 SELF LOCKING NUTS

2.047

.250

LACK SLEEE

.480 DIA. TPE

.330 DIA.

.410

DIA.

.460

TRIPPED

WHITE TRIP

INDICATOR

LACK

ACTUATOR

Percentage Of Circuit Breaker’s Rated Current

Time To Open (Trip) In Seconds

10000

1000

100

0.1 1.0 10 100 1000 10000

TYPICAL

TRIP

CURVE

AT 25°C

125%

100%

16 LABINAL POWER SYSTEMS TF300-1E

SERIES 700 A MINIATURE BREAKER WITH HIGH INTERRUPTING CAPACITY

Single-Pole High

Performance

Qualified

To MS25244, MS25244-P and

MS25244-PT of MIL-C-5809

(MS25244PT is a substitute for

MS25017) .

Lightweight

Circuit breaker weighs only 43

grams.

High Interrupting Capacity

Interrupts a 6,000A circuit at

30V, DC; 3,500A circuit at 120V,

400 Hz. AC.

Performance Rated Circuit

Breaker

Exceeds military specification

requirements for durability,

vibration, mechanical shock,

and acceleration.The 700 is a

miniature push-pull breaker

offering fast trip and high inter-

rupting capacity. Its trip-free

design prevents the breaker

from being held closed manually

on overloads.

A feature of the breaker is sepa-

rate overload and mechanical

latches. Separated in this way,

the mechanical latch assures

maximum endurance for the

thousands of cycles of manual

on-off operation, while the ther-

mal latch combines both precise

operation and durability.

Bushing and Flush Mounting

Options

OVERLOAD CALIBRATION DATA

Specification

Table

@ 25°C @ +71°C @ -40°C

Test Time

Parameters

0.5 – 7 1/2A 10 – 50A 0.5 – 7 1/2A 10 – 50A

MIN MAX MIN MAX MIN MAX MIN MAX MIN MAX

Must Hold 115 — 60 — 70 — 156 —148 —% For 1 Hour

Must Trip —138 —108 —114 —178 —178 % Within 1 Hour

200% Overload 15 55.0 — — — — — — — — Seconds

400% Overload 27. 0 — — — — — — — — Seconds

600% Overload 1 3.5 — — — — — — — — Seconds

Trip curve available.

PERFORMANCE DATA

Interrupting Capacity 6,000A at 30V, DC. 3,500A at 120V, 400 Hz., AC

Endurance At 120V, 400 Hz., AC or 30V, DC: inductive load — 2,500 cycles; resistive load — 5,000 cycles;

mechanical cycling, no load — 5,000 cycles

Overload Cycling 100 operations at 200% rated current and rated voltage

Dielectric Strength At sea level, 25°C 1,500V, AC. At 65,000 ft., 70°C 500V, AC. 1,500V, minimum

Insulation Resistance Not less than 100 megohms at 500V, DC

Voltage Drop Varies with rating (see “Ordering Information”)

Vibration Exceeds MIL-STD-202, Method 204, Condition A (Random Optional)

Shock Exceeds 30G’s, 11 Millisec (half-sine pulse) MIL-STD-202, Method 213 Test J

Acceleration Exceeds 10G’s

Weight 700-001: 43 grams (.1 lbs.). 700-089: 48 grams (.11 lbs.)

Altitude Maximum 65,000 ft.

* AT RATED NOMINAL CURRENT

Three phase variants are available as a 930 Series.

For other amperage ratings and configurations, consult the Business Unit.

Standard

(Bushing

Mounting)

High/Random

Vibration (Flush

Mounting)

ORDERING INFORMATION

ADAPTER FLUSH MOUNTING PLATE

STANDARD

BASE & TERMINAL

CONFIGURATION STYLE “P”

ALTERNATE BASE & TERMINAL

CONFIGURATION STYLE “PT”

APPROVAL

STATUS

AMPERE

RATING

VOLTAGE

DROP

MAX. * MS P/N

LABINAL

MP P/N MS P/N

LABINAL

MP P/N MS P/N

LABINAL

MP P/N

MS Approved 5 0.25 MS25244-5 700-001-5 MS25244-P5 700-089-5 MS25244-PT5 700-092-5

MS Approved 7 1/2 0.25 MS25244-7 1/2 700-001-705 MS25244-P7 1/2 700-089-705 MS25244-PT7 1/2 700-092-705

MS Approved 10 0.25 MS25244-10 700-001-10 MS25244-P10 700-089-10 MS25244-PT10 700-092-10

MS Approved 15 0.25 MS25244-15 700-001-15 MS25244-P15 700-089-15 MS25244-PT15 700-092-15

MS Approved 20 0.25 MS25244-20 700-001-20 MS25244-P20 700-089-20 MS25244-PT20 700-092-20

MS Approved 25 0.25 MS25244-25 700-001-25 MS25244-P25 700-089-25 MS25244-PT25 700-092-25

MS Approved 30 0.25 MS25244-30 700-001-30 MS25244-P30 700-089-30 MS25244-PT30 700-092-30

MS Approved 35 0.25 MS25244-35 700-001-35 MS25244-P35 700-089-35 MS25244-PT35 700-092-35

Non MS

Approved 40 0.25 700-001-40 700-089-40 700-092-40

Non MS

Approved 50 0.25 700-001-50 700-089-50 700-092-50

LABINAL POWER SYSTEMS TF300-1E 17

SERIES 700

DIMENSIONS

TRIP CURVE

.750 MAX.

RATING ON BUTTON

IN WHITE FIGURES

.906 ± .008

1.812 ± .016

6-32 SELF

LOCKING NUTS

1.093

2.189 MAX.

.500 ± .005 DIA.

.140 DIA.

2 PLACES

.906 ± .005

1.812 ± .010

RECOMMENDED MOUNTING MS-25244-P & MS-25244-PT

.484 ± .005 DIA.

.125 ± .005 DIA.

.375 ± .005

MAX. PANEL THICKNESS .100

RECOMMENDED MOUNTING MS-25244

.468 .100 ± .015

.375

MIN.

1.530 MAX.

.704

.352

.062 ± .001

45 ± 2

1.094

MAX.

2 SCREWS

#8-32 MS5197-41

& LOCKWASHER

MS35338-137

1.665 MAX.

1.747

.250 ± .015

2.000 MAX.

BLACK FINISH

.156 ± .015

.410

DIA.

.330 DIA.

.719

MAX.

WHITE TRIP

INDICATOR

BLACK

ACTUATOR

.344

.750

MAX.

.375 ± .005 TO OF LUG

.750 MAX.

.093 ± .005 DIA.

AMPERE RATING

IN WHITE FIGURES

.410

DIA.

.330 DIA.

.750 MAX.

TRIPPED

WHITE TRIP

INDICATOR

.469-32UNS-2A

THREAD BUSHING

BLACK

ACTUATOR

MOUNTING NUT

MS25082-C21

MOUNTING

LOCKWASHER

MS35333-136

.470 MIN.

CLOSED

1.490 MAX.

.704

.352

LINE TERMINAL

1.094

MAX.

2 SCREWS

#8-32 MS5197-41

& LOCKWASHER

MS35338-137

1.707

1.860 MAX.

.250 .045

LOCATING LUG

Percentage Of Circuit Breaker’s Rated Current

Time To Open (Trip) In Seconds

.410±.015 DIA.

.330±.015 DIA.

.468

.100±.015

.250±.015

.375 MIN.

.177 MIN.

2.000

MAX.

45° REF.

1.812

.594

1.188

1.66 MAX.

Screw (2 - Required)

(MS 51957-41)

Lockwasher

(MS35338-137)

700-001

(MS25244)

700-089 700-092

(MS25244-P) (MS25244-PT)

Dimensions Different Base & Terminal

MS25244-P Base & Terminal

MS25244-PT Base & Terminal

10000

1000

100

0.1 1.0 10 100 1000 10000

TYPICAL

TRIP

CURVE

AT 25°C

178%

138%

115%

70%

UPPER LIMIT AT 40°.

REFERENCE ONLY

LOWER LIMIT AT 71°C.

REFERENCE ONLY

RANGE AT 25°C

18 LABINAL POWER SYSTEMS TF300-1E

SERIES 1500 FAST TRIP PROTECTION FOR LOW-CURRENT EQUIPMENT

Single-Pole High

Performance

Qualified

Designed to MS22074 for MIL-C-

5809.

Fast Trip

Operates on a hot-wire principle,

much faster than bimetal break-

ers.

Fail-Safe Operation

Fault cannot cause breaker to

fuse closed.

Ambient-Compensated

No appreciable change in trip

time from -40°C to +71°C.

Low Resistance

Silver alloy contacts maintain

low resistance for life of circuit

breaker.

Load Protection

The fast tripping circuit breaker

is ideal for protecting sensitive

loads such as avionics and fuel

pumps where rapid detection

and fault clearing are desired.

Performance Rated Circuit

Breaker

It is the only thermal hot wire

type available in ratings from

one-half ampere.

The 1500 is a circuit breaker that

features fast trip for quick

response. Designed for the pro-

tection of both wiring and equip-

ment, the unit provides trip indi-

cation, trip-free protection, and

the convenience of manual on-

off operation. Excellent tempera-

ture stability is assured by the

hot-wire design. The breaker has

a high resistance to shock and

vibration. Its “Fail Safe” design

eliminates the danger of the

breaker fusing closed on over-

load.

ICU Application

This circuit breaker meets the

requirements of MIL-C-83383 for

use as a RCCB ICU (Indicator

Control Unit). Its I2t function is

per specification.

PERFORMANCE DATA

Interrupting Capacity 1/2 to 1A: 600A at 120V AC, 400 Hz.; 6,000A at 30V DC

1 1/2 to 4A: 1,000A at 120V AC 400 Hz.; 6,000A at 30V DC

5 to 10A: 600A at 120V AC 400 Hz.; 6,000A at 30V DC

Endurance At 120VAC, 400 Hz., or at 30V DC; inductive load — 2,500 cycles; resistive load —

5,000 cycles; mechanical cycling, no load — 5,000 cycles

Overload Cycling 100 operations at 200% rated current and rated voltage

Dielectric Strength 1,500V, minimum

Insulation Resistance Not less than 100 megohms at 500V, DC

Voltage Drop Varies with rating (see “Ordering Information”)

Vibration Exceeds MIL-STD-202, Method 204, Condition A

Shock Exceeds 30G’s, 11 Millisec (half-sine pulse) MIL-STD-202, Method 213 Test J

Acceleration Exceeds 10G’s

Weight 45 grams (.099 lbs.)

OVERLOAD CALIBRATION DATA

Specification

Table

@ 25°C @ +71°C @ -40°C

Test Time

Parameters

0.5 – 3A 4.5 – 10A

MIN MAX MIN MAX MIN MAX MIN MAX

Must Hold 115 —115 —115 —115 —% For 1 Hour

Must Trip —138 —138 —138 —138 % Within 1 Hour

200% Overload .400 3.0.800 3.60 — — — — Seconds

400% Overload .090 0.6.140 0.75 — — — — Seconds

600% Overload .042 0.3.055 0.35 — — — — Seconds

Trip curve available

ORDERING INFORMATION

Ampere Rating Voltage Drop Max.* Part Number

1/2 1.21 1500-052-05

3/4 1.21 1500-052-075

1 1.20 1500-052-1

1 1/2 1.10 1500-052-105

2 0.95 1500-052-2

2 1/2 0.85 1500-052-205

3 0.81 1500-052-3

4 0.72 1500-052-4

5 0.65 1500-052-5

10 0.55 1500-052-10

* At rated nominal current.

For other amperage ratings and configurations, consult the Business Unit.

LABINAL POWER SYSTEMS TF300-1E 19

SERIES 1500

.484 ± .005 DIA.

.125 ± .005 DIA.

.375 ±.005

RECOMMENDED MOUNTING

MOUNTING NUT

MS25082-B21

MOUNTING

LOCKWASHER

MS35333-126B

.470 MIN.

1.453

.700

.350

LINE TERMINAL

1.137

2 SCREWS

#8-32 MS35206-241

& LOCKWASHERS

MS35338-42

1.660

1.843 MAX.

.250 .045

.4687-32UN-2

THREAD

.410

DIA.

.330 DIA.

.750 MAX.

WHITE TRIP

INDICATOR

BLACK

ACTUATOR

.750 MAX.

LOCATING PIN

.093 DIA.

.375 ± .005 TO OF PIN

AMPHERE RATING

IN WHITE FIGURES

DIMENSIONS

TRIP CURVE

Time To Open (Trip) In Seconds

Percentage Of Circuit Breaker’s Rated Current

10000

1000

100

0.01 0.1 1.0 10 100 1000

TYPICAL

TRIP

CURVE

AT 25°C

138%

115%

UPPER RANGE

4.5 - 10 AMPS

10000

LOWER RANGE

0.5 - 3 AMPS

20 LABINAL POWER SYSTEMS TF300-1E

SERIES 4001 SUB-MINIATURE PRECISION CIRCUIT BREAKER

Single-Pole High

Performance

Qualified

To MS22073 of MIL-C-5809

Lightweight

Under 33 grams (.073 lbs)

High Interrupting Capacity

Interrupts up to 6,000A circuit at

30V, DC; and up to 3,500A cir-

cuit at 120V, 400 Hz. AC.

Not Sensitive To Frequency Or

Voltage

Breaker may be used on either

AC or DC circuits.

Performance Rated Circuit

Breaker

Meets or exceeds military speci-

fication requirements for durabil-

ity, vibration, mechanical shock,

and acceleration.Precision inter-

nal design provides a time-tem-

perature characteristic capable

of protecting either wire or

equipment. With a case 1 1/2

inches long, the breaker weighs

less than 33 grams, and is ideal

for today’s demanding design

requirements.

OVERLOAD CALIBRATION DATA

Specification

Table

@ 25°C @ +71°C @ -55°C Test Time

ParametersMIN MAX MIN MAX MIN MAX

Must Hold 115 — 90 — 135 —% For 1 Hour

Must Trip —150 —130 —180 % Within 1 Hour

200% Overload 2.000 20.0 — — — — Seconds

500% Overload 0.160 2.0 — — — — Seconds

1000% Overload 0.046 0.5 — — — — Seconds

Trip curve available

PERFORMANCE DATA

Interrupting Capacity1 to 5A: 6,000A at 30V, DC. 7 1/2 to 25A: 2,000A at 30V, DC 1A: 3,500A at 120V, 400 Hz., AC. 2 to 5A: 800A

at 120V, 400 Hz., AC 7 1/2 to 25A: 500A at 120V, 400 Hz., AC

Endurance* At 120V, 400 Hz., AC, or 28V, DC: inductive load — 2,500 cycles; resistive load — 5,000 cycles; mechanical

cycling, no load — 5,500 cycles

Overload Cycling 100 operations at 200% rated current and rated voltage

Dielectric Strength 1,500V, minimum

Insulation Resistance Not less than 100 megohms at 500V, DC

Voltage Drop Varies with rating (see “Ordering Information”)

Vibration* Meets specification MIL-STD-202, Method 204, Condition A, 10G, 10-500 Hz.

MS “V” type (4001-008) meets Condition B, 15G, 10–2,000 Hz. and Condition C, 10G, 10–2,000 Hz.

MS “D“ type (4001-011) meets Random Vibration levels

Shock* Exceeds 30G’s, 11 Millisec (half-sine pulse) MIL-STD-202, Method 213 Test J

Acceleration Exceeds 10G’s

Weight 33 grams (0.073 lbs.)

* Variations of these circuit breakers are capable of exceeding the standard Mil specification for endurance, vibration, and shock.

Consult the business unit for more information.

LABINAL POWER SYSTEMS TF300-1E 21

SERIES 4001

DIMENSIONS

TRIP CURVE

Percentage Of Circuit Breaker’s Rated Current

Time To Open (Trip) In Seconds

.780

MAX.

.593

MAX.

Ampere Rating In

White Figures

.375 ± .005

.125 ± .005 DIA.

.484 ± .005 DIA.

.410 DIA.

.750 MAX.

Tripped

1.535 MAX.

Mounting Lockwasher

MS35333-136B

Mounting Nut

MS25082-C21

.467 MIN.

Closed

.469-32UNS-2A

Threaded Bushings

.250

1.852

MAX.

2 Screws MS51957-41 &

Lockwashers MS35338-137

.703

.352

1.707

10000

1000

100

0.01 0.1 1.0 10 100 1000

TYPICAL

TRIP

CURVE

AT 25°C

150%

115%

10000

22 LABINAL POWER SYSTEMS TF300-1E

SERIES 4200 HIGH PERFORMANCE LIGHTWEIGHT SUB-MINIATURE CIRCUIT BREAKER

Single-Pole High

Performance

Qualified

To MS26574 of MIL-C-5809

Lightweight

22 grams (.048 lbs)

High Interrupting Capacity

High Vibration and Shock

Resistance

Sub-Miniature Size

Performance Rated Circuit

Breaker

The 4200 is a sub-miniature,

lightweight, trip free, single

phase circuit breaker, which

combines its compact size with

a proven technological track

record. A modification of the

popular 4310 series, its reliability

has been long established.

Options such as long button,

high vibration resistance, and

hardware variations will enhance

its versatility. The 4200 reacts

consistently in extreme fluctua-

tions of temperature, high

shock, vibration, or humidity.

Auxiliary Switch And Terminals

The 4200 Series is also available

in an Auxiliary Switch version

(4200-004) to provide a remote

indication of a trip condition. In a

trip condition, the contacts in

the auxiliary switch are in a

closed position.

OVERLOAD CALIBRATION DATA

Specification

Table

@ 25°C @ +71°C @ -55°C Test Time

ParametersMIN MAX MIN MAX MIN MAX

Must Hold 115 — 90 — 135 —% For 1 Hour

Must Trip —150 —130 —180 % Within 1 Hour

200% Overload 2.000 20.0 — — — — Seconds

500% Overload 0.160 1. 2 — — — — Seconds

1000% Overload 0.046 0.8 — — — — Seconds

Trip curve available.

PERFORMANCE DATA

Interrupting Capacity 1 to 5A: unlimited at 28V DC; 7 1/2 to 25A: 2,000A at 28V DC

1 to 1 1/2A: unlimited at 120V 400 Hz., AC

2 to 5A: 800A at 120V, 400 Hz., AC

7 1/2 to 25A: 500 amps at 120V, 400 Hz., AC

Endurance* At 120V, 400 Hz., AC or at 28V, DC: inductive load — 2,500 cycles; resistive load — 5,000 cycles;

mechanical cycling, no load — 5,000 cycles

Overload Cycling Minimum of 100 cycles at 200% rated current

Dielectric Strength At sea level, 25°C 1,500V, AC. At 80,000 ft. 71°C 500V, AC

Insulation Resistance Not less than 100 megohms at 500V, DC

Voltage Drop Varies with rating (see “Ordering Information”)

Vibration* Meets specification MIL-STD-202, Method 204, Condition A 10-57 Hz. 06 in. Displacement Double

Amplitude, and 57-500 Hz. at 10G’s (Random vibration level also available)

Shock* Exceeds 50G’s, 11 Millisec (half-sine pulse) MIL-STD-202, Method 213A Test A

Acceleration Exceeds 10G’s

Weight 22 grams (0.048 lbs.)

* Variations of these circuit breakers are capable of exceeding the standard Mil specification for endurance, vibration, and shock.

Consult the business unit for more information.

ORDERING INFORMATION

* AT RATED NOMINAL CURRENT

For other amperage ratings and configurations, consult the Business Unit.

Standard Longbutton Auxiliary Terminal

STANDARD

LONG

BUTTON

RANDOM

VIBRATION

AUXILIARY

TERMINAL LONG BUTTON

MS APPROVAL

STATUS

AMPERE

RATING

VO LTAGE

DROP

MAX. * MS P/N

LABINAL

MP P/N MS P/N

LABINAL

MP P/N MS P/N

LABINAL

MP P/N MS P/N

LABINAL

MP P/N MS P/N

LABINAL

MP P/N

MS Approved 3/4 1.45 MS26574-3/4 4200-001-075 MS26574-3/4L 4200-003-075 MS26574-D3/4 4200-006-075 MS26574-3/4A 4200-004-075 MS26574-D3/4L 4200-007-075

MS Approved 11. 10 MS26574-1 4200-001-1 MS26574-1L 4200-003-1 MS26574-D1 4200-00 6-1 MS26574-1A 4200-004-1 MS26574-D1L 4200-007-1

MS Approved 1 1/2 0.75 MS26574-1 1/2 4200-001-105 MS26574-1 1/2L 4200-003-105 MS26574-D1 I/2 4200-006-105 MS26574-1 1/2A 4200-004-105 MS26574-D1 1/2L 4200-007-105

MS Approved 2 0.75 MS26574-2 4200-001-2 MS26574-2L 4200-003-2 MS26574-D2 4200-006-2 MS26574-2A 4200-004-2 MS26574-D2L 4200-007-2

MS Approved 2 1/2 0.70 MS26574-2 1/2 4200-001-205 MS26574-2 1/2L 4200-003-205 MS26574-D2 1/2 4200-006-205 MS26574-2 1/2A 4200-004-205 MS26574-D2 1/2L 4200-007-205

MS Approved 3 0.55 MS26574-3 4200-001-3 MS26574-3L 4200-003-3 MS26574-D3 4200-006-3 MS26574-3A 4200-004-3 MS26574-D3L 4200-007-3

MS Approved 4 0.45 MS26574-4 4200-001-4 MS26574-4L 4200-003-4 MS26574-D4 4200-006-4 MS26574-4A 4200-004-4 MS26574-D4L 4200-007-4

MS Approved 5 0.35 MS26574-5 4200-001-5 MS26574-5L 4200-003-5 MS26574-D5 4200-006-5 MS26574-5A 4200-004-5 MS26574-D5L 4200-007-5

MS Approved 7 1/2 0.30 MS26574-7 1/2 4200-001-705 MS26574-7 1/2L 4200-003-705 MS26574-D7 1/2 4200-006-705 MS26574-7 1/2A 4200-004-705 MS26574-D7 1/2L 4200-007-705

MS Approved 10 0.28 MS26574-10 4200-001-10 MS26574-10L 4200-003-10 MS26574-D10 4200-006-10 MS26574-10A 4200-004-10 MS26574-D10L 4200-007-10

MS Approved 15 0.25 MS26574-15 4200-001-15 MS26574-15L 4200-003-15 MS26574-D15 4200-006-15 MS26574-15A 4200-004-15 MS26574-D15L 4200-007-15

MS Approved 20 0.25 MS26574-20 4200-001-20 MS26574-20L 4200-003-20 MS26574-D20 4200-006-20 MS26574-20A 4200-004-20 MS26574-D20L 4200-007-20

Non

MS Approved 25 0.20 4200-001-25 4200-003-25 4200-006-25 4200-004-25 4200-007-25

LABINAL POWER SYSTEMS TF300-1E 23

SERIES 4200

DIMENSIONS

TRIP CURVE

1.251

MAX.

1.525

MAX.

1.404 AUXILIARY

TERMINAL

AUXILIARY TERMINAL MODEL ONLY

AUXILIARY

TERMINAL

.125 ± .005 DIA.

.375 ± .005

RECOMMENDED MOUNTING

AUXILIARY SWITCH OPERATION

CLOSED

LINE

LOAD

AUXILIARY CIRCUIT

LOAD

CLOSED

OPEN

.593

MAX.

.593

MAX.

MOUNTING UNIT

MS25062-C18

A* LOCKWASHER

MS3533-141B

.4375-32UN-2B

THREAD BUSHING

.593

LOCKW

ASHER MS36336-136

TERMINAL SCREW MS51957-25

.045 ± .010

- .005

.398 ± .015 DIA.

.780 MAX.

.453 ± .005 DIA.

Time To Open (Trip) In Seconds

Percentage Of Circuit Breaker’s Rated Current

Part No. A*Max. B*Min.

4200-001 0.759 0.407

4200-003 1.134 0.782

4200-004 0.759 0.407

4200-006 0.759 0.407

4200-007 10134 0.782

Min. Panel Thickness .025

Max. Panel Thickness .100

10000

1000

100

0.01 0.1 1.0 10 100 1000

TYPICAL

TRIP

CURVE

AT 25°C

115%

90%

UPPER LIMIT AT -55°C.

REFERENCE ONLY

10000

LOWER LIMIT AT 71°C.

REFERENCE ONLY

RANGE AT 25°C

150%

180%

24 LABINAL POWER SYSTEMS TF300-1E

SERIES 4310 AMBIENT TEMPERATURE-COMPENSATED SUB-MINIATURE CIRCUIT BREAKER

Sub-Miniature Size —

High Performance

Qualified

To MS3320 of Mil-C-5809.

Meets performance specifica-

tion of MS14105 of MIL-C-5809

High Interrupting Capacity

Interrupts 6,000A fault at 28V,

DC; up to 3,500A fault at 120V,

400 Hz., AC (ampere rating

dependent).

Vibration Resistance

Vibration resistance and

mechanical life exceed MIL

Specs — including random vibra-

tion.

Temperature-Compensated

Ambient-temperature-

compensated from -55°C to

+121°C.

Performance Rated Circuit

Breaker

The lightweight, single-phase

circuit breaker, Series 4310,

allows high density packaging

for all aircraft and aerospace

needs.

The 4310 series reflects the lat-

est advancements in circuit

breaker design — plus other

proven features (e.g., self-wiping

contacts).

Tight tolerances in design and

stringent manufacturing stan-

dards are key factors in the reli-

able operation of the 4310 under

severe environmental conditions

of high temperature, high

humidity, extreme vibration, and

shock. It is also fungus- and cor-

rosion-proof.

Calibration integrity is main-

tained through wide variations in

ambient temperature and alti-

tude, making this circuit breaker

ideal for applications where tem-

perature is not controlled.

Multiple Options

This series is available in many

optional configurations.

It is presently being manufactured with 7/16,

15/32 and metric mounting sleeves. Many ver-

sions of different terminals, barriers, and hard-

ware are current production items. Several dif-

ferent actuator options provide our customers

with additional flexibility.

OVERLOAD CALIBRATION DATA

Specification

Table

@ 25°C @ +121°C @ -55°C Test Time

ParametersMIN MAX MIN MAX MIN MAX

Must Hold 115 —10 0 —115 —% For 1 Hour

Must Trip —138 —138 —160 % Within 1 Hour

200% Overload 5.00 20.00 1.500 13.00 7. 0 0 40.00 Seconds

500% Overload 0.50 2.00 0.150 1. 10 0.50 3.00 Seconds

1000% Overload 0.12 0.53 0.035 0.30 0.16 0.80 Seconds

Trip curves available.

PERFORMANCE DATA

Interrupting Capacity* 1 to 25A: 6,000A at 28V, DC. 1A: 3,500A at 120V, 400 Hz., AC

1 1/2 to 2 1/2A: 2,800A at 120V, 400 Hz., AC; 3 TO 15: 2,500A AT 120V, 400 Hz., AC;

20 to 25A: 2,000A at 120V, 400 Hz., AC

Endurance* At 120V, 400 Hz., AC or at 28V, DC: inductive load — 2,500 cycles; resistive load — 5,000 cycles;

mechanical cycling, no load — 10,000 cycles

Overload Cycling Minimum of 100 cycles at 200% rated current

Dielectric Strength At sea level, 25°C 1,500V, AC. At 70,000 ft. 121°C 500V, AC

Insulation Resistance Not less than 100 megohms at 500V, DC

Voltage Drop Varies with rating (see “Ordering Information”)

Vibration* Meets specification MIL-STD-202, Method 204, Condition A-10G, 10-500 Hz.

MS “V” type,(4310-019) meets Condition B, 15G, 10-2,000 Hz. and Condition C 10G, 10-2,000 Hz.

Shock* Exceeds 50G’s, 11 Milli-sec (half-sine pulse) MIL-STD-202, Method 213 Test A

Acceleration Exceeds 10G’s

Weight 25 grams (.055 lbs.)

* Variations of these circuit breakers are capable of exceeding the standard Mil specification for endurance vibration, shock, and

Interrupting capacity. Consult the Business Unit for more information.

ORDERING INFORMATION

Standard

STANDARD

LONG

BUTTON

HIGH

VIBRATION

LONG BUTTON

VIBRATION

MS Approval

Status

AMPERE

RATING

VO LTAGE

DROP MAX. * MS P/N

LABINAL

MP P/N MS P/N

LABINAL

MP P/N MS P/N

LABINAL

MP P/N MS P/N

LABINAL

MP P/N

MS Approved 11. 1 0 MS3320-1 4310-001-1 MS3320-1L 4310-005-1 MS3320-1V 4310-019-1 MS3320-1VL 4310-024-1

Non MS

Approved 1 1/2 0.80 4310-001-105 4310-005-105 4310-019-105 4310-024-105

MS Approved 2 0.75 MS3320-2 4310-001-2 MS3320-2L 4310-005-2 MS3320-2V 4310-019-2 MS3320-2VL 4310-024-2

MS Approved 2 1/2 0.70 MS3320-2-1/2 4310-001-205 MS3320-2 1/2L 4310--005-205 MS3320-2 1/2V 4310-019-205 MS3320-2 1/2VL 4310-024-205

MS Approved 3 0.55 MS3320-3 4310-001-3 MS3320-3L 4310-005-3 MS3320-3V 4310-019-3 MS3320-3VL 4310-024-3

MS Approved 4 0.45 MS3320-4 4310-001-4 MS3320-4L 4310-005-4 MS3320-4V 4310-019-4 MS3320-4VL 4310-024-4

MS Approved 5 0.35 MS3320-5 4310-001-5 MS3320-5L 4310-005-5 MS3320-5V 4310-019-5 MS3320-5VL 4310-024-5

MS Approved 7 1/2 0.30 MS3320-7-1/2 4310-001-705 MS3320-7 1/2L 4310-005-705 MS3320-7 1/2V 4310-019-705 MS3320-7 1/2VL 4310-024-705

MS Approved 10 0.28 MS3320-10 4310-001-10 MS3320-10L 4310-005-10 MS3320-10V 4310-019-10 MS3320-10VL 4310-024-10

MS Approved 15 0.25 MS3320-15 4310-001-15 MS3320-15L 4310-005-15 MS3320-15V 4310-019-15 MS3320-15VL 4310-024-15

MS Approved 20 0.25 MS3320-20 4310-001-20 MS3320-20L 4310-005-20 MS3320-20V 4310-019-20 MS3320-20VL 4310-024-20

Non MS

Approved 25 0.20 4310-001-25 4310-005-25 4310-019-25 4310-024-25

LABINAL POWER SYSTEMS TF300-1E 25

SERIES 4310

DIMENSIONS

TRIP CURVE

.375 ± .005

.125 ± .005 DIA.

.453 ± .005 DIA.

RECOMMENDED MOUNTING

.781 MAX.

.375 ± .010

1.030

MAX.

1.343

MAX.

1.218

.500

SCREW

MS51957-41

LOCKWASHER

MS35338-137

.045 ± .010

.005

.395 ± .005 DIA.

.593

BLACK BUTTON

WHITE TRIP

INDICATOR

A* MOUNTING NUT

MS25082-C18

MOUNTING

LOCKWASHER

MS35333-141

.4375-32UN-ZA

THREAD

Percentage Of Circuit Breaker’s Rated Current

Time To Open (Trip) In Seconds

MIL Spec Part No. A*Max. B*Min.

MS3320 4310-001 0.750 0.470

MS3320L 4310-005 1.125 0.845

MS3320V 4310-019 0.750 0.470

MS3320VL 4310-024 1.125 0.845

Min. Panel Thickness .025

Max. Panel Thickness .100

10000

1000

100

0.01 0.1 1.0 10 100 1000

TYPICAL

TRIP

CURVE

AT 25°C

160%

138%

UPPER LIMIT AT -55°C.

REFERENCE ONLY

10000

LOWER LIMIT AT +121°C.

REFERENCE ONLY

RANGE AT 25°C

115%

100%

26 LABINAL POWER SYSTEMS TF300-1E

SERIES 940 THREE-PHASE, HIGH CAPACITY PROTECTION

Heavy-Duty Three-Pole

High Performance

Three-phase protection of cir-

cuits from 50 to 100 amperes.

Interphase Insulation

Insulating interphase barriers

separate adjacent terminals.

Common Trip Bar

One bar connects the three

operating mechanisms for simul-

taneous trip action. Trip bar is

removable for installation.

Performance Rated Circuit

Breaker

The 940 series is the only three-

pole heavy-duty aircraft-type cir-

cuit breaker available in the 50 to

100 ampere range and consists

of three specially built 160-012

breakers with insulating inter-

phase barriers separating adja-

cent terminals. The unit has a

common trip bar connecting the

three operating mechanisms so

that an overload tripping one pole

will simultaneously trip the

remaining two poles.

OVERLOAD CALIBRATION DATA

Specification

Table

@ 25°C @ +71°C @ -40°C Test Time

ParametersMIN MAX MIN MAX MIN MAX

Must Hold 105 — 70 — 145 —% For 1 Hour

Must Trip —138 —115 —170 % Within 1 Hour

200% Overload 15 70 — — — — Seconds

400% Overload 210 — — — — Seconds

600% Overload 1 4 — — — — Seconds

Tip curve available.

PERFORMANCE DATA

Interrupting Capacity 1,200A at 120V 400 Hz., AC

Endurance At 120VAC, 400 Hz.: inductive load — 5,000 cycles; resistive load — 5,000 cycles;

mechanical cycling, no load — 5,000 cycles

Overload Cycling 100 cycles minimum at 200% rated current and rated voltage

Dielectric Strength 1,500V, minimum

Insulation Resistance Not less than 100 megohms at 500V, DC

Voltage Drop Varies with rating (see “Ordering Information”)

Vibration Exceeds MIL-STD-202, Method 204, Condition A except, 7G peak

Shock Exceeds 30G’s, 11 Millisec (half-sine pulse) MIL-STD-202, Method 213 Test J

Acceleration Exceeds 10G’s

Weight 390 grams (.860 lbs.)

ORDERING INFORMATION

Ampere Rating Voltage Drop Max.* Part Number

50 0.15 940-006-50

60 0.15 940-006-60

70 0.15 940-006-70

75 0.15 940-006-75

80 0.15 940-006-80

90 0.15 940-006-90

100 0.15 940-006-100

* At rated nominal current.

Data depicted is for the 940 Series. Also available to order are 920, 930, 960, and 970 Series devices.

For other amperage ratings and configurations, consult the Business Unit.

LABINAL POWER SYSTEMS TF300-1E 27

SERIES 940

DIMENSIONS

TRIP CURVE

.500 DIA. 3 PLACES

.140 DIA.

6 PLACES

.906 ± .015

.875 ± .015

1.812 ± .015

RECOMMENDED MOUNTING

.875 ± .015

.384 CLOSED

MOUNTING

PLATE

1.546

.718 .093

1.437

2.187 MAX.

2.437

LINE

TERMINAL

6-1/4-28 X 1/2 HEX. HEAD

SCREW AND FLAT WASHER

1/4-28 SELF LOCKING NUTS

2.046

.250

.291

.750

2.631

MAX.

AMPERE RATING

IN WHITE FIGURES

.906



1.812

6 6-32 INTEGRAL

SELF LOCKING NUTS

TRI R REMO E

OR INT  TION

LACK SLEEE

.480 DIA. TPE

.330 DIA.

.875 .875

.604

TRIPPED

3.48 SCREWS

AND NUTS WHITE TRIP

INDICATOR

LACK

ACTUATOR

TRI R REMO E

OR INT  TION

Percentage Of Circuit Breaker’s Rated Current

Time To Open (Trip) In Seconds

10000

1000

100

0.1 1.0 10 100 1000

TYPICAL

TRIP

CURVE

AT 25°C

138%

10000

105%

28 LABINAL POWER SYSTEMS TF300-1E

SERIES 1526 FAST TRIP PROTECTION FOR DELICATE EQUIPMENT

Three-Pole High Performance

Common trip mechanism trips

all three phases, regardless of

which phase is overloaded.

Low-Current Protection

Protects circuits in ratings from

1 to 15 amperes.

Ambient-Compensated

Effects of temperature on trip

times are minimal.

Fast Trip

Operates on a hot-wire principle,

much faster than bimetal break-

ers.

Low Resistance

Contacts are made from a silver

alloy that maintains low resis-

tance throughout the life

of the breaker.

Load Protection

The fast tripping circuit breaker

is ideal for protecting sensitive

loads such as avionics and fuel

pumps where rapid detection

and fault clearing are desired.

Performance Rated Circuit

Breaker

The 1526 Series is the only hot

wire, fast-trip, three-pole circuit

breaker in ratings from 1 -15

amperes. A single actuator con-

trols all three poles, so that the

breaker can be easily operated

manually. There is only one over-

load latch; thus an overload on

one pole will open all three

poles simultaneously, regardless

of which pole is overloaded.

Long contact life is assured

through the use of a low-resis-

tance silver alloy.

OVERLOAD CALIBRATION DATA

Specification

Table

@ 25°C @ +71°C @ -65°C

Test Time

Parameters

1– 7.5A 10 – 15A

MIN MAX MIN MAX MIN MAX MIN MAX

Must Hold 115 —115 —110 —110 —% For 1 Hour

Must Trip —138 —138 —138 —138 % Within 1 Hour

200% Overload .35 4.0 3.0 10.0 — — — — Seconds

400% Overload .10 0.7 0.6 1. 4 — — — — Seconds

600% Overload .04 0.3 0.3 0.8 — — — — Seconds

Trip curve available.

PERFORMANCE DATA

Interrupting Capacity 300A at 120V, 400Hz., AC, three-phase

Endurance 4,000 cycles at 100% load

Overload Cycling 100 cycles minimum at 200% load

Dielectric Strength 1,500V, minimum

Insulation Resistance Not less than 100 megohms at 500V, DC

Voltage Drop Varies with rating (see “Ordering Information”)

Vibration Exceeds MIL-STD-202, Method 204, Condition A

Shock Exceeds 30G’s, 11 Millisec (half-sine pulse) MIL-STD-202, Method 213 Test J

Acceleration Exceeds 10G’s

Weight 154 grams (.340 lbs.)

ORDERING INFORMATION

Ampere Rating Voltage Drop Max.* Part Number

11.20 1526-005-1

1 1/2 1.20 1526-005-105

20.95 1526-005-2

2 1/2 0.85 1526-005-205

30.85 1526-005-3

3 1/2 0.75 1526-005-305

40.72 1526-005-4

50.65 1526-005-5

7 1/2 0.60 1526-005-705

10 0.55 1526-005-10

15 0.50 1526-005-15

* At rated nominal current.

For other amperage ratings and configurations, consult the Business Unit.

LABINAL POWER SYSTEMS TF300-1E 29

SERIES 1526

DIMENSIONS

TRIP CURVE

MOUNTING NUT

MS25082-8

MOUNTING LOCKWASHER

MS35333-126

.470 MIN.

.688

1.376

#6-FLAT WASHERS

#6-LOCKWASHERS

#8-32 NUTS

1.500 REF.

1.875 MAX.

.250

2.063

.4687-32UN-2A

THREAD

1.300 MAX.

LOCATING PIN

.093 DIA.

.375 ± .005 TO OF PIN

AMPERE RATING

IN WHITE FIGURES

.410

DIA.

.330 DIA.

.045

.750 MAX.

WHITE TRIP

INDICATOR

BLACK

ACTUATOR

.375

.750

LINE TERMINALS

.484 ± .005 DIA.

.125 ± .005 DIA.

.375 ±.005

MAX. PANEL THICKNESS .100

RECOMMENDED MOUNTING

Time To Open (Trip) In Seconds

Percentage Of Circuit Breaker’s Rated Current

10000

1000

100

0.01 0.1 1.0 10 100 1000

TYPICAL

TRIP

CURVE

AT 25°C

138%

LOWER RANGE

1 - 71/2 AMP

10000

UPPER RANGE

10-15 AMP

115%

30 LABINAL POWER SYSTEMS TF300-1E

SERIES 1536 MINIATURE PROTECTION AMBIENT-TEMPERATURE COMPENSATED

Three-Pole High

Performance

Three-Phase Protection

Common trip mechanism trips

all three phases, regardless of

which phase is overloaded.

Integral Barriers

Terminals are separated by barri-

ers molded into the case.

Single-Hole Mounting

For quick, easy installation.

Shock And Vibration Resistant

Construction

Permits use in various types of

portable and mobile airborne

equipment.

Performance Rated Circuit

Breaker

The 1536-001 is a lightweight,

miniature breaker that features

three bimetal sensing elements

having very fast electro-dynamic

response under short circuit

conditions, and standard trip

characteristics at lower levels of

overloads.

Single hole mounting and small

size facilitate easy installation.

The breaker’s one-piece, glass-

filled case features integrally-

molded barriers to separate the

terminals.

OVERLOAD CALIBRATION DATA

Specification

Table

@ 25°C @ +71°C @ -55°C Test Time

Parameters

MIN MAX MIN MAX MIN MAX

Must Hold 105 — 70 — 130 —% For 1 Hour

Must Trip —138 Balanced* —110 —160 % Within 1 Hour

200% Overload 10.00 70.0 — — — — Seconds

400% Overload 2.00 10.0 — — — — Seconds

600% Overload 1. 0 0 4.0 — — — — Seconds

1000% Overload 0.35 1. 4 — — — — Seconds

* Unbalanced load, individual phases: 145%

Trip curve available.

PERFORMANCE DATA

Interrupting Capacity 1,000A at 205V, 400 Hz., three-phase symmetrical fault

1,000A at 120V, 400 Hz., single-phase fault

Endurance At 120VAC, 400 Hz.: inductive load — 5,000 cycles; resistive load — 5,000 cycles;

mechanical cycling, no load — 5,000 cycles

Overload Cycling 100 operations at 200% load

Dielectric Strength 1,500V, minimum

Insulation Resistance Not less than 100 megohms at 500V, DC

Voltage Drop Varies with rating (see “Ordering Information”)

Vibration Exceeds MIL-STD-202, Method 204, Condition A

Shock Exceeds 30G’s, 11 Millisec (half-sine pulse) MIL-STD-202, Method 213 Test J

Acceleration Exceeds 10G’s

Weight 181 grams (.40 lbs.)

ORDERING INFORMATION

Ampere Rating Voltage Drop Max.* Part Number

50.350 1536-001-5

7 1/2 0.325 1536-001-705

10 0.300 1536-001-10

15 0.250 1536-001-15

20 0.200 1536-001-20

25 0.180 1536-001-25

30 1.180 1536-001-30

35 0.175 1536-001-35

40 0.175 1536-001-40

50 0.150 1536-001-50

* At rated nominal current.

For other amperage ratings and configurations, consult the Business Unit.

LABINAL POWER SYSTEMS TF300-1E 31

SERIES 1536

DIMENSIONS

TRIP CURVE

MOUNTING NUT

MS25082-B21

MOUNTING LOCKWASHER

MS35333-126B

.255 CLOSED

.688

1.376

1.530 REF.

2.170 MAX.

.250

2.160 MAX.

32 -32 THREAD

.410

DIA.

.330

DIA.

.045

1.900

.500 TRIPPED

WHITE TRIP

INDICATOR

BLACK

ACTUATOR

.375

.750

LINE

TERMINALS

6 SCREWS, #8-32 MS35206-241

& LOCKWASHERS MS35338-42

.484 DIA.

.125  .005 DIA.

.375 .005

RECOMMENDED MOUNTING

1.312

MAX.

1.350

OER EPOX

COERING

CAL SCREW

LOCATING PIN

.093 DIA.

.375  .005 TO OF PIN

AMPERE RATING

IN WHITE FIGURES

Time To Open (Trip) In Seconds

Percentage Of Circuit Breaker’s Rated Current

10000

1000

100

0.01 1.0 10 100 1000

TYPICAL

TRIP

CURVE

AT 25°C

138%

10000

105%

32 LABINAL POWER SYSTEMS TF300-1E

SERIES 4330 AMBIENT TEMPERATURE COMPENSATED

Three-Phase Protection

Qualified

To MS14154 of MIL-C-5809.

Lightweight

Weighs 68 grams maximum

(0.15 lbs).

Vibration Resistance

Vibration resistance and

mechanical life exceed MIL

Specs — including random

vibration.

Miniature Size — High

Performance

19.8mm, 46.7mm, 35.0mm

behind panel depth.

Temperature-Compensated

Ambient-temperature-

compensated from -55°C to

+71°C. Note: higher operating

ranges are available.

Performance Rated Circuit

Breaker

This lightweight, miniature,

three-phase circuit breaker,

Series 4330, reflects the latest

advancements in circuit breaker

design, incorporating self-wiping

contacts, tight tolerances in

design, and stringent manufac-

turing standards. It is fungus-

proof and highly resistant to cor-

rosion. The trip-free thermal

mechanism avoids nuisance

trips (even during temporary

surges of starting loads) under

ambient temperatures ranging

from -55°C to +71°C. Calibration

integrity is maintained through

wide variations in ambient tem-

perature and altitude, making

this circuit breaker ideal for

applications where temperature

is not controlled.

Multiple Options

This series is available in many

optional configurations.

It is presently being manufactured with 7/16,

15/32 and metric mounting sleeves. Many ver-

sions of different terminals, barriers, and hard-

ware are current production items. Several dif-

ferent button options provide our customers

with additional flexibility.

OVERLOAD CALIBRATION DATA

Specification

Table

@ 25°C @ +71°C @ -55°C Test Time

ParametersMIN MAX MIN MAX MIN MAX

Must Hold 110 —10 0 —110 —% For 1 Hour

Must Trip —145 —145 —165 % Within 1 Hour

200% Overload 4.00 20.00 3.00 20.00 6.00 40.00 Seconds

500% Overload 0.40 2.00 0.33 1.70 0.55 3.50 Seconds

1000% Overload 0.10 0.53 0.08 0.40 0.15 0.80 Seconds

PERFORMANCE DATA

Interrupting Capacity 1,200A balanced at 205V, 400Hz, AC and 2,000A unbalanced at 120V, 400Hz, AC, at sea level and

70,000 feet

Endurance 120V, 400 Hz., AC: inductive load — 2,500 cycles; resistive load — 5,000 cycles;

mechanical cycling no load — 5,000 cycles

Overload Cycling 100 cycles at 200%

Dielectric Strength At sea level, 25°C 1,500V, AC. At 70,000 ft. +71°C 500V, AC

Insulation Resistance Not less than 100 megohms at 500V, DC

Voltage Drop Varies with rating (see “Ordering Information”)

Vibration Meets specification MIL-STD-202, Method 204, Condition A-10G., 10-500 Hz.

MS “V” type, meets Condition B, 15G, 10-2,000 Hz. and Condition C 10G, 10-2,000 Hz.

Shock 50G’s. MIL-STD-202, Method 213 Test G

Acceleration Exceeds 10G’s

Weight 68 grams max. (0.15 lbs.)

ORDERING INFORMATION

* AT RATED NOMINAL CURRENT

For other amperage ratings and configurations, consult the Business Unit.

Standard

STANDARD

LONG

BUTTON

HIGH

VIBRATION

LONG BUTTON

VIBRATION

MS APPROVAL

STATUS

AMPERE

RATING

VO LTAGE

DROP

MAX. * MS P/N

LABINAL

MP P/N MS P/N

LABINAL

MP P/N MS P/N

LABINAL

MP P/N MS P/N

LABINAL

MP P/N

MS Approved 11. 10 MS14154-1 4330-001-1 MS14154-1L 4330-007-1 MS14154-1V 4330-008-1 MS14154-1VL 4330-009-1

MS Approved 2 0.75 MS14154-2 4330-001-2 MS14154-2L 4330-007-2 MS14154-2V 4330-008-2 MS14154-2VL 4330-009-2

MS Approved 2 1/2 0.70 MS14154-2 1/2 4330-001-205 MS14154-2 1/2L 4330-007-205 MS14154-2 1/2V 4330-008-205 MS14154-2 1/2VL 4330-009-205

MS Approved 3 0.55 MS14154-3 4330-001-3 MS14154-3L 4330-007-3 MS14154-3V 4330-008-3 MS14154-3VL 4330-009-3

MS Approved 4 0.45 MS14154-4 4330-001-4 MS14154-4L 4330-007-4 MS14154-4V 4330-008-4 MS14154-4VL 4330-009-4

MS Approved 5 0.35 MS14154-5 4330-001-5 MS14154-5L 4330-007-5 MS14154-5V 4330-008-5 MS14154-5VL 4330-009-5

MS Approved 7 1/2 0.30 MS14154-7 1/2 4330-001-705 MS14154-7 1/2L 4330-007-705 MS14154-7 1/2V 4330-008-705 MS14154-7 1/2VL 4330-009-705

MS Approved 10 0.28 MS14154-10 4330-001-10 MS14154-10L 4330-007-10 MS14154-10V 4330-008-10 MS14154-10VL 4330-009-10

MS Approved 15 0.28 MS14154-15 4330-001-15 MS14154-15L 4330-007-15 MS14154-15V 4330-008-15 MS14154-15VL 4330-009-15

MS Approved 20 0.25 MS14154-20 4330-001-20 MS14154-20L 4330-007-20 MS14154-20V 4330-008-20 MS14154-20VL 4330-009-20

LABINAL POWER SYSTEMS TF300-1E 33

SERIES 4330

DIMENSIONS

TRIP CURVE

.375 ± .005

.125 ± .005 DIA.

.453 ± .005 DIA.

RECOMMENDED MOUNTING

.781 MAX.

.375 ± .010

1.030

MAX.

1.343

MAX.

1.218

.500

SCREW

MS51957-41

LOCKWASHER

MS35338-137

.045 ± .010

.005

.395 ± .005 DIA.

.593

BLACK BUTTON

WHITE TRIP

INDICATOR

A* MOUNTING NU

MS25082-C18

MOUNTING

LOCKWASHER

MS35333-141

.4375-32UN-A

THREAD

Percentage Of Circuit Breaker’s Rated Current

Time To Open (Trip) In Seconds

MIL Spec Part No. A*Max. B*Min.

MS14154 4330-001 0.750 0.470

MS14154L 4330-007 1.125 0.845

MS14154V 4330-008 0.750 0.470

MS14154VL 4330-009 1.125 0.845

Min. Panel Thickness .025

Max. Panel Thickness .100

10000

1000

100

0.01 0.1 1.0 10 100 1000

TYPICAL

TRIP

CURVE

AT 25°C

165%

145%

UPPER LIMIT AT -55°C.

REFERENCE ONLY

10000

LOWER LIMIT AT 71°C.

REFERENCE ONLY

RANGE AT 25°C

110%

100%

34 LABINAL POWER SYSTEMS TF300-1E

ORDERING INFORMATION

All Ampere Ratings equal to Rated Contact Loads (Resistive, Inductive, Motor, and Lamp) except as noted.

* No Lamp Load Rating

** Contact Business Unit

Note: Contact Business unit on Alternate Amperages, Trip Times, Control Configurations, Grounding, Auxiliary Switches, Mounting Systems, etc.

REMOTE CONTROLLED CIRCUIT BREAKER (RCCB)

Qualified

Qualified to demanding perfor-

mance parameters of MIL- PRF -

83383 standard.

Use as a Relay, Circuit

Breaker, Or Both

RCCBs combine the best attri-

butes of a circuit breaker and a

relay. Automatically protects the

wires and the load device during

circuit/load breakdown, but

allows the flight deck control of

the load during normal opera-

tion.

Weight and Cost Savings

In distributed-load applications,

RCCBs are a more efficient

power distribution solution pro-

moting cost and weight savings

through the elimination of long

runs of heavy cables associated

with the conventional relay -

flight deck circuit protector

method. Control of the RCCB

requires only one #22 AWG con-

trol wire from the ICU on the

flight deck to the RCCB.

Cockpit Space Savings

An RCCB system removes the

presence of large circuit break-

ers from the cockpit while per-

mitting remote On/Off operation

from the flight deck. Combine

Labinal Power Systems RCCB

with Indicator Control Unit (ICU)

model #1500-053-05.

PERFORMANCE DATA

Rupture Levels 3600 A (115 VAC or 28VDC for 1Pole and 115VAC for 3 Pole)

Endurance

(Resistive & Inductive(Motor) 50,000 Cycles

Endurance (Motor) 5-50A: 50,000 cycles; 60-100A: 25,000 cycles

Endurance (Lamp) 5-25A: 50,000 cycles; 35-50A: 25,000 cycles; 60-100A: no rating

Dielectric Strength 1500V, 60Hz, MIL-STD-202, method 301, 0.5 MA max

Insulation Resistance 100 mega ohm min, MIL-STD-202, method 302

Thermal Temperature Range -54°C to 71°C (-65°F to 160°F). MIL-STD-202, Method 107

Vibration 10G's to 2000 Hz. Exceeds MIL-STD-202, Method 204, Condition C, 10 microseconds max. chatter

Shock 25G's. MIL-STD-202, Method 213, 10 microseconds max. chatter

Altitude 50,000 ft.

EMI Requirements MIL-STD-461, Requirements CS114 and RE102 over the frequency range of

14 KHz to 400 MHz and RE102 limits for Aircraft and Space Systems.

EMI/RFI Susceptibility

and Generation MIL-STD-461, Class 1D

Moisture Resistance MIL-STD-202, method 106

Salt Spray Resistance MIL-STD-202, method 101, Condition B

Sand and Dust Resistance MIL-STD-202, method 110, Condition A

Fungus Resistance MIL-HDBK-454, Guideline 4

Explosion Proof MIL-STD-202, method 109

Weight (Standard) 5-25A: 318 grams (0.703 lbs.); 35-50A: 325 grams (0.719 lbs.); 60-100A: 332 grams (0.734 lbs.)

Weight (w/ Auxiliary Contacts) 5-25A: 332 grams (0.734 lbs.); 35-50A: 339 grams (0.750 lbs.); 60-100A: 346 grams (0.766 lbs.)

OVERLOAD CALIBRATION DATA

Single Phase

• 28 VDC

• 115/200 VAC 400 Hz

Three Phase

• 115/200 VAC 400 Hz

• Three Phase Only

Specification

Table

@ 25°C @ +71°C @ -54°C

Test Time

ParametersMIN MAX MIN MAX MIN MAX

Must Hold 115 % 115% 115 % % for 1 Hour

Must Trip 138% 138% 150% % Within 1 Hour

Single Pole Single Throw (Double Break Contacts)

Three Pole Single Throw

(Double Break Contacts)

Standard w/ Auxiliary Contacts w/ Auxiliary Contacts

AMPERE

RATING MS P/N LABINAL P/N MS P/N LABINAL P/N MS P/N LABINAL P/N

5M83383/01-01 SM600BA5N1 M83383/02-01 SM600BA5A1 **

7. 5 ** ** **

10 M83383/01-03 SM600BA10N1 M83383/02-03 SM600BA10A1 M83383/04-03 SM601BA10A1

15 M83383/01-04 SM600BA15N1 M83383/02-04 SM600BA15A1 SM601BA15A1

20 M83383/01-05 SM600BA20N1 M83383/02-05 SM600BA20A1 M83383/04-05 SM601BA20A1

25 M83383/01-06 SM600BA25N1 M83383/02-06 SM600BA25A1 SM601BA25A1

35 M83383/01-07 SM600BA35N1 M83383/02-07 SM600BA35A1 M83383/04-07 SM601BA35A1

40 M83383/01-08 SM600BA40N1 M83383/02-08 SM600BA40A1 M83383/04-08 SM601BA40A1

50 M83383/01-09 SM600BA50N1 M83383/02-09 SM600BA50A1 SM601BA50A1

60 * M83383/01-10 SM600BA60N1 M83383/02-10 SM600BA60A1 M83383/04-10 SM601BA60A1

75 * M83383/01-11 SM600BA75N1 M83383/02-11 SM600BA75A1 M83383/04-10 M83383/04-10

80 * ** **

100 * M83383/01-13 SM600BA100N1 M83383/02-13 SM600BA100A1

LABINAL POWER SYSTEMS TF300-1E 35

REMOTE CONTROLLED CIRCUIT BREAKER (RCCB)

TRIP CURVE

Contact business unit for trip curve.

OVERLOAD CALIBRATION DATA - SINGLE POLE

AMPERE

RATING

200% Trip Times

-54°C to +71°C

400% Trip Times

-54°C to +71°C

1000% Trip Times

-54°C to +71°C

MIN MAX MIN MAX MIN MAX

AMPERES SECONDS SECONDS SECONDS SECONDS SECONDS SECONDS

5 7 40 1. 2 6.4 0.3 1. 2

7. 5 11 40 2.4 6.8 0.33 1. 1

10 12 42 2.8 8.5 0.42 1.05

15 13 45 1. 7 8.3 0.35 1. 2

20 14 46 2.9 7. 6 0.4 1. 1 5

25 15 50 2.6 8.7 0.4 1. 3

35 16 55 2.8 8.3 0.35 1. 3

40 16 55 2.9 9.2 0.36 1. 3

50 13 55 2.9 10 0.4 1.25

60 13 60 2.6 13 0.26 1. 8

75 13 60 2.5 13 0.26 1. 8

80 14 60 2.7 12.5 0.3 2

100 17 63 3.5 13 0.38 1. 9

OVERLOAD CALIBRATION DATA - THREE POLE

AMPERE

RATING

200% Trip Times

-54°C to +71°C

400% Trip Times

-54°C to +71°C

1000% Trip Times

-54°C to +71°C

MIN MAX MIN MAX MIN MAX

AMPERES SECONDS SECONDS SECONDS SECONDS SECONDS SECONDS

10 12 80 2.8 11 0.42 1. 3

15 13 80 1. 7 10 0.35 1. 2

20 14 80 2.9 9.6 0.4 1. 1 5

25 15 80 2.6 10 0.4 1. 3

35 16 80 2.8 11 0.35 1. 3

40 16 80 2.6 10 0.36 1. 3

50 13 80 2.9 10 0.4 1.25

60 13 80 2.4 16 0.26 1. 8

36 LABINAL POWER SYSTEMS TF300-1E

REMOTE CONTROLLED CIRCUIT BREAKER (RCCB)

1 POLE AND 3 POLE

Engineering Data

Application Note

FLIGHT DECK

100 AMPS

RELAY

SWITCH1/2 AMP

100 AMPS

Without RCCB

FLIGHT DECK

SWITCH

MS22073-1/2 OR

MS26574-1/2

1/2 AMP

100 AMPS RCCB

With RCCB Distributed Load Concept

Typical Wiring Diagram

3 4 5A 5B 6

S3 S1 S2

To Indicator/

Control Unit

Circuit Breaker

Type MS22073-

1/2 OR MS26574-

1/2 Backup Control Power (when used)

115 V 400 HZ or 28 Vdc

(Must be same AC Phase as the

“Line” Power)

Internal Connection

Auxiliary Contacts When Applicable

LINE

LOAD

LINE



To Indicator/

Control Unit

Circuit Breaker

Type MS22073-

1/2 OR MS26574-

1/2

3 4 5A 5B

S3 S1 S2

Backup Control

Power (when

used) 28 Vdc

Internal Connection

Auxiliary Contacts



Integrated Wire Termination Module

(MIL-STD-1549)

Contacts and Coil

Circuits Only

Single Pole

Internal Coil

Current

Cut-Off

NOTE: Units with date codes

beginning with third quarter 1993

use electronically controlled coil

cut-off without internal coil current

cut-off.

NOTE: Terminals 5A and 5B internally grounded to the mounting leg (s). Integrated wire

termination (IWT) module accepts pin contacts P/N M39029/1-100 or -101. Use with

insertion/extraction tool M81969/14-02.

Wiring for Multiple

Line Protection

345A 6

Contacts and Coil

Circuits Only

Three Pole

Auxiliary Contacts

Intermittent Duty

Coils Current Cut-

Off Controlled

Electronically

LABINAL POWER SYSTEMS TF300-1E 37

REMOTE CONTROLLED CIRCUIT BREAKER (RCCB)

1 POLE AND 3 POLE

Engineering Data

Approximate Dimensions - 1 Pole

Options

• Special application auxil

- iary switches

• Unique grounding

• Power sources

• Other current ratings

• Control via systems other

than I/CU

• Low level auxiliary con-

tacts available

• Data Bus/Interface capabil-

ity available

• Electronically held coil

3Pole

Coil Operate Current/Set And Trip Time RCCB

* MAX. I/CU. Line Impedance 7.5 Current Decreases w/Time so that I2t

** Average Half-Wave Rectified DC Current ***Absolute Min. Value from -54° to +71°C

Typical Placement of

Rating on Top Plane

LOAD A2

LINE A1

.172/4.37 DIA.

2 MTG. HOLES

R. 20

5.08

.688/

17.48

2.940

74.68

3.250

82.55

Main Contact

Position Indicator

Red: Closed; Green: Open

Mtg. Flanges

Mate As Shown

1.530

38.86

2.250

57.15

.350

8.89

.07

1.778

.500 - .610

12.70 - 15.24

.180

4.57

3.42

86.87

Name

Plate

.084

2.13

4.26

108.20

.056

1.42

.42

10.67

1.200

30.48

LOAD A2

LOAD B2

LOAD C2

LINE A1

LINE B1

LINE C1

2.526

64.16

2.940

74.68

3.250

82.55

2.526

64.16

Main Contact

Position Indicator

Red: Closed;

Green: Open

2.28

57.91

1.50

38.86

.350

8.89

.07

1.78

.05

1.27

4.26

108.20

3.43

87.12

.130

3.30

.77

19.56

2.03

51.56

3.29

83.57

3.69

93.73

Location of

NamePlate

Circuits

Nominal System

Voltage

I/CU Set

Current @

Nom

Voltage

(Mulliamp)

Set Coil

Current @

Nom

Voltage

Pulse

MAX. Set Time *I/CU. Trip Current Nominal

MAX.

Standby

Current

Milliamp

Nominal

Voltage &

Room

Temp.

Most Adverse

Condition - MIN.

Voltage 71°C.

Ambient

71°C &

Nominal

Voltage

-54°C &

Nominal

Voltage

Room

Temp.

Nominal

Voltage

71°C &

Nominal

Voltage

-54°C &

Nominal

Voltage

1 Pole

28 Vdc

(18 Volts MIN.)

115 Vac

400 Hz (104 V.

MIN.)

23.0 AMP

MAX 20 Millisec 35 Millisec 1.4 AMP 1.9 AMP 1.6 AMP 0.9 AMP

*** 2.1 AMP 10

210 AMP

MAX 15 Millisec 30 Millisec 6.8 AMP

6.3 AMP

8.6 AMP

6.1 AMP

7.0 AMP

** 10

3 Pole

28 Vdc

(18 Volts MIN.)

115 Vac

400 Hz (104 V.

MIN.)

27.0 AMP

MAX 20 Millisec 35 Millisec 1.5 AMP 2.0 AMP 1.7 AMP 0.9 AMP

*** 2.2 AMP 10

213.0 AMP

MAX 15 Millisec 30 Millisec 4.3 AMP

3.3 AMP

4.5 AMP

4.0 AMP

3.1 AMP

** 10

38 LABINAL POWER SYSTEMS TF300-1E

OVERLOAD DATA

REMOTE POWER CONTROLLER (RPC)

Electronic Current Sensing

The electronic over current

sensing of these devices offer

several advantages over the bi-

metal sensing RCCB. Trip cur-

rent levels can be closely con-

trolled, for better protection of

sensitive loads, trip times are

faster, and both can be custom-

ized for specific applications.

Other advantages included less

heat buildup, and higher current

capabilities in the same small

package.

Use as a Relay, Circuit

Breaker, Or Both

RPCs, like RCCBs, combine the

best attributes of a circuit break-

er and a relay. Automatically

protects the wires and the load

device during circuit/load break-

down, but allows the flight deck

control of the load during nor-

mal operation.

Weight and Cost Savings

In distributed-load applications,

RPCs are a more efficient power

distribution solution promoting

cost and weight savings through

the elimination of long runs of

heavy cables associated with

the conventional relay - flight

deck circuit protector method.

Control of the RPC requires only

one #22 AWG control wire from

the ICU (model #1500-053-05)

on the flight deck to the RPC.

PERFORMANCE DATA

Rupture Levels 2500 A (28VDC)

Endurance (Resistive) 50,000 Cycles

Endurance (Inductive and Motor) 25,000 cycles

Endurance (Lamp) No Rating

Mechanical Life 100,000 cycles

Dielectric Strength Sea Level - VRMS .2-3 seconds: Coil to Case - 1250 initial. 1,000

After Life, All other Points 1,800 Initial, 1350 After Life

50,000 Ft. - VRMS 1 Minute: Coil to Case 500 Initial & After Life.

All other Points 700 Initial & After Life

Insulation Resistance 1100 Megaohms initial, 50 Megohms after Life, MIL-STD-202,

method 302, test condition B

Thermal Temperature Range -55°C to 85°C (-67°F to 185°F).

Vibration Sinusoidal 5 to 10 Hz: 0.08 DA; 10 TO 55 Hz: 0.06 DA; 55 to 2000

Hz: 10G's

Shock 50G's. (1/2 sine, 10-12 ms)

Altitude 50,000 Ft. Maximum

EMI Requirements MIL-STD-461, Requirements CS114 and RE102 over the frequency

range of 14 KHz to 400 MHz and RE102 limits for Aircraft and

Space Systems

Moisture Resistance MIL-STD-202, method 106

Salt Spray Resistance MIL-STD-202, method 101, Condition B

Sand and Dust Resistance MIL-STD-202, method 110, Condition A

Fungus Resistance MIL-HDBK-454, Guideline 4

Explosion Proof MIL-STD-202, method 109

Weight (Standard) 425.017 grams (0.937 lbs.)

ORDERING INFORMATION

Notes:

• One auxiliary contact included on each unit

• Contact Business Unit on Alternate Amperages, Trip Times, Control Configurations, Grounding, Auxiliary Switches, Mounting Systems, etc.

Single Pole

• 28 VDC

% Rated Current Trip in Seconds -55°C to +85°C

100% No Trip

125% 45 Sec. Trip

200% 0.22 Sec. Trip

400% 0.095 Sec. Trip

Single Pole Single Throw (Double Break Contacts)

AMPERE

RATING LABINAL P/N

Rated Contact Load (Amperes)

28 VDC

125 SM600BA125A1 125 125 125 5

150 SM600BA150A1 150 150 150 5

175 SM600BA175A1 175 150 175 5

200 SM600BA200A1 200 150 175 5

LABINAL POWER SYSTEMS TF300-1E 39

REMOTE POWER CONTROLLER (RPC)

COIL OPERATE CURRENT/SET AND TRIP TIME

* MAX I/CU. LINE IMPEDANCE 7.5 Ohms CURRENT DECREASES W/TIME SO THAT I2t >= 2

Engineering Data

Approximate Dimensions - 1 Pole

Typical Wiring Diagram

Approximate Dimensions

A2 A1

3 A2 A2 A2

LOAD LINE

28 VDC

Back Up

Power

To Indicator /

Control Unit Circuit

Breaker Type

MS22073 - 1/2 Or

MS26574 - 1/2

S3 S1

Auxiliary

Contacts

Over Current Detector

5A 5B

5A 3

5B S3 S2 S1

Module: Integrated wire termination. Terminals

will accept PIN contact per M39029/1 - 101. Use

insertion/extraction tool M81969/14 - 02.

Typical

Placement

of Rating

on Top

Plane

LOAD A2

LINE A1

125

.172/4.37 DIA.

2 MTG. HOLES

.688/

17.48

2.940

74.68

3.250

82.55

Position Indicator

Red: Closed;

Green: Open

1.530

38.86

2.250

57.15

.350

8.89

.07

1.778

.05/1.27

.180

4.57

3.42

86.87

Name

Plate

R.06

1.52

4.26

108.20

.056

1.42

.42

10.67

1.200

30.48

Integrated

Wire Module

.256/6.50

.150

3.81

Barrier Black

Nylon Per

MIL-M-

20693A Type

I. General

Purpose

Terminal

Pad .6 DIA.

Nominal

System Voltage

I/C Set Current

@ Nom. Voltage

(milliamp)

Set Coil

Current @Nom

Voltage Pulse

MAX. Set Time *I/CU. Trip Current Nominal

Nominal

Voltage @

Room Temp

Most Adverse

Condition-Min.

Voltage 71°C Ambient

71°C and

Nominal

Voltage

-54°C and

Nominal

Voltage

Room Temp

and Nominal

Voltage

Max. Standby

Current (milliamp)

28 VDC

(18 Volts Min) 23.7 Amp 20 Millisec 35 Millisec 1.76 Amp 1.25 Amp 1.89 Amp 30

40 LABINAL POWER SYSTEMS TF300-1E

ADDITIONAL PRODUCTS

Additional Series

In addition to the circuit

breaker products described

in this catalog, Labinal Power

Systems Aerospace Group

has the capability to

manufacture over twenty

additional series of circuit

breakers.

Please contact the Business

Unit at 1-800-955-7354

for details or ordering

information on these

unique devices.

Series 60

Series 100

Series 130

Series 140

Series 180

Series 260

Series 270

Series 780

Series 920

Series 930

Series 960

Series 970

Series 1200

Series 1538

Series 1540

Series 1585

Series 2100

Series 4380

Series 8500

Series 9500

Additional Product Design

Options

If your application calls for

an amperage, feature, or

option we do not currently

list in our catalog, please

contact the Business Unit at

1-800-955-7354.

LABINAL POWER SYSTEMS TF300-1E 41

CIRCUIT BREAKER TERMINOLOGY GLOSSARY

Ambient

Compensation

Limits or eliminates thermal

derating (lowering of capabili-

ties) caused by extreme ambi-

ent temperatures.

Ambient Temperature

Refers to the temperature of the

air immediately surrounding the

circuit breaker/protection device.

Automatic Reset

Device that will automatically

open an overload circuit. It will

also automatically close or com-

plete the circuit after a period of

time. If the overload is still pres-

ent, the device will continue to

cycle until either the power or

the overload is removed.

Circuit Breaker

Device designed to open and

close a circuit manually and to

open the circuit automatically on

a predetermined overload of cur-

rent.

Current Rating

Designation of rating given in

amperes at which the device

will not trip. A specific tempera-

ture is usually assigned.

Dielectric Strength

The ability of an insulating mate-

rial to withstand an over voltage

without exceeding minimal leak-

age current levels or material

breakdown. Specified in voltage

(VAC), usually between a live

metal part and ground or

between open contacts of a

device.

Fuse

A protective device using a spe-

cial metal-alloyed conductor that

is often notched or otherwise

engineered to control the cross

sectional area. A fault current

will melt the narrow cross sec-

tion, interrupting the flow of cur-

rent.

Fusible Link/Fail Safe

A metallic sacrificial element

within the RCCB or circuit

breaker that melts and then arcs

due to the joule heating of an

over current. This feature

ensures that a fault cannot

cause the RCCB or circuit break-

er to fail in the closed position.

Interrupt Capacity

The highest level of fault current

that a circuit protective system

is intended to interrupt.

Depending on qualification

requirements, some devices

must clear the fault, be operable

afterwards, and still be capable

of tripping on 200 percent over-

loads. While other qualified

devices may have a backup

device wherein the combination

must successfully clear the fault

while leaving the protector in a

fail-safe condition (no loss of

case integrity, external materials

remaining unignited by gaseous

emissions, and no dielectric

path to grounded parts).

Manual Reset

Refers to breakers in which the

electrical contacts remain open

after a trip until someone physi-

cally closes or completes the

circuit by either pushing a reset

button or throwing a switch.

Maximum Ultimate Trip

(must trip)

Current rating at which a circuit

protection device will trip within

a certain period of time at a

specified temperature.

Minimum Ultimate Trip

(must hold)

Current rating for which a circuit

protection device will not trip for

an extended period of time at a

specified temperature.

Nuisance Trips

Those trips caused by a

response to non-damaging

inrush or start-up current surg-

es, as opposed to an actual

overcurrent trip.

Overcurrent

That current which may cause

dangerous overheating.

Overcurrent Protection

Protection achieved by limiting

the duration and magnitude of

exposure to an overcurrent.

Overload

An electrical load or current flow

greater than that which a circuit

is designed to handle.

Overload Capacity

The highest level of overload

current that devices will inter-

rupt and remain in operable con-

dition, capable of clearing addi-

tional overloads.

Safety Factor

The allowance added to the

steady-state application current

to ensure that the protective

device selected will be more

than sufficient to handle the

application without nuisance

trips. Labinal Power Systems

recommends a minimum safety

factor of 15 percent.

Slow-Blow Fuse

A dual element fuse that allows

for slow response to overloads

(less than 10x rating) and fast

response to fault currents.

Trip-Free

A characteristic of certain break-

ers that provides independence

between the protection mecha-

nism and the operating button

or handle, such that a fault can-

not be maintained manually (or

held closed) against an overload.

Trip Indication

Visual sign the breaker has

opened.

Trip Curve

Graphic displaying minimum and

maximum time a breaker takes

to trip for given levels of over-

load.

Voltage Drop

The voltage decreases across

the protector/breaker due to the

internal resistance of the device.

42 LABINAL POWER SYSTEMS TF300-1E

QUALIFIED PRODUCTS UNDER MILITARY SPECIFICATION FOR MIL-C-8509 AND MIL-C-83383

MS P/N LABINAL P/N Page MS P/N LABINAL P/N Page MS P/N LABINAL P/N Page MS P/N LABINAL P/N Page

MIL-C-8509 MS14154-4VL 4300-009-4 32 MS25244-30 700-001-30 16 MS26574-10A 4200-004-10 22

MS3320-1 4310-001-1 24 MS14154-5 4330-001-5 32 MS25244-35 700-001-35 16 MS26574-10L 4200-003-10 22

MS3320-1L 4310-005-1 24 MS14154-5L 4330-007-5 32 MS25244-P5 700-089-5 16 MS26574-15 4200-001-15 22

MS3320-1V 4310-019-1 24 MS14154-5V 4330-008-5 32 MS25244-P7 1/2 700-089-705 16 MS26574-15A 4200-004-15 22

MS3320-1VL 4310-024-1 24 MS14154-5VL 4330-009-5 32 MS25244-P10 700-089-10 16 MS26574-15L 4200-003-15 22

MS3320-2 4310-001-2 24 MS14154-7 1/2 4330-001-705 32 MS25244-P15 700-089-15 16 MS26574-20 4200-001-20 22

MS3320-2L 4310-005-2 24 MS14154-7 1/2L 4330-007-705 32 MS25244-P20 700-089-20 16 MS26574-20A 4200-004-20 22

MS3320-2V 4310-019-2 24 MS14154-7 1/2V 4330-008-705 32 MS25244-P25 700-089-25 16 MS26574-20L 4200-003-20 22

MS3320-2VL 4310-024-2 24 MS14154-7 1/2VL 4330-009-705 32 MS25244-P30 700-089-30 16 MS26574-D3/4 4200-006-075 22

MS3320-2 1/2 4310-001-205 24 MS14154-10 4330-001-10 32 MS25244-P35 700-089-35 16 MS26574-D3/4L 4200-007-075 22

MS3320-2 1/2L 4310--005-205 24 MS14154-10L 4330-007-10 32 MS25244-PT5 700-092-5 16 MS26574-D1 4200-006-1 22

MS3320-2 1/2V 4310-019-205 24 MS14154-10V 4330-008-10 32 MS25244-PT7 1/2 700-092-705 16 MS26574-D1L 4200-007-1 22

MS3320-2 1/2VL 4310-024-205 24 MS14154-10VL 4330-009-10 32 MS25244-PT10 700--092-10 16 MS26574-D1 I/2 4200-006-105 22

MS3320-3 4310-001-3 24 MS14154-15 4330-001-15 32 MS25244-PT15 700-092-15 16 MS26574-D1 1/2L 4200-007-105 22

MS3320-3L 4310-005-3 24 MS14154-15L 4330-007-15 32 MS25244-PT20 700-092-20 16 MS26574-D2 4200-006-2 22

MS3320-3V 4310-019-3 24 MS14154-15V 4330-008-15 32 MS25244-PT25 700-092-25 16 MS26574-D2L 4200-007-2 22

MS3320-3VL 4310-024-3 24 MS14154-15VL 4330-009-15 32 MS25244-PT30 700-092-30 16 MS26574-D2 1/2 4200-006-205 22

MS3320-4 4310-001-4 24 MS14154-20 4330-001-20 32 MS25244-PT35 700-092-35 16 MS26574-D2 1/2L 4200-007-205 22

MS3320-4L 4310-005-4 24 MS14154-20L 4330-007-20 32 MS25361-50 160-012-50 12 MS26574-D3 4200-006-3 22

MS3320-4V 4310-019-4 24 MS14154-20V 4330-008-20 32 MS25361-50V 160-086-50 12 MS26574-D3L 4200-007-3 22

MS3320-4VL 4310-024-4 24 MS14154-20VL 4330-009-20 32 MS25361-60 160-012-60 12 MS26574-D4 4200-006-4 22

MS3320-5 4310-001-5 24 MS22073-1 4001-001-1 32 MS25361-60V 160-086-60 12 MS26574-D4L 4200-007-4 22

MS3320-5L 4310-005-5 24 MS22073-1V 4001-008-1 32 MS25361-70 160-012-70 12 MS26574-D5 4200-006-5 22

MS3320-5V 4310-019-5 24 MS22073-1 1/2 4001-001-105 20 MS25361-70V 160-086-70 12 MS26574-D5L 4200-007-5 22

MS3320-5VL 4310-024-5 24 MS22073-1 1/2V 4001-008-105 20 MS25361-75 160-012-75 12 MS26574-D7 1/2 4200-006-705 22

MS3320-7 1/2 4310-001-705 24 MS22073-2 4001-001-2 20 MS25361-75V 160-086-75 12 MS26574-D7 1/2L 4200-007-705 22

MS3320-7 1/2L 4310-005-705 24 MS22073-2V 4001-008-2 20 MS25361-80 160-012-80 12 MS26574-D10 4200-006-10 22

MS3320-7 1/2V 4310-019-705 24 MS22073-2 1/2 4001-001-205 20 MS25361-80V 160-086-80 12 MS26574-D10L 4200-007-10 22

MS3320-7 1/2VL 4310-024-705 24 MS22073-2 1/2V 4001-008-205 20 MS25361-90 160-012-90 12 MS26574-D15 4200-006-15 22

MS3320-10 4310-001-10 24 MS22073-3 4001-001-3 20 MS25361-90V 160-086-90 12 MS26574-D15L 4200-007-15 22

MS3320-10L 4310-005-10 24 MS22073-3V 4001-008-3 20 MS25361-100 160-012-100 12 MS26574-D20 4200-006-20 22

MS3320-10V 4310-019-10 24 MS22073-4 4001-001-4 20 MS25361-100V 160-086-100 12 MS26574-D20L 4200-007-20 22

MS3320-10VL 4310-024-10 24 MS22073-4V 4001-008-4 20 MS26574-3/4 4200-001-075 12

MS3320-15 4310-001-15 24 MS22073-5 4001-001-5 20 MS26574-3/4A 4200-004-075 12 MIL-C-83383

MS3320-15L 4310-005-15 24 MS22073-5V 4001-008-5 20 MS26574-3/4L 4200-003-075 22 M83383/01-01 SM600BA5N1 34

MS3320-15V 4310-019-15 24 MS22073-7 1/2 4001-001-705 20 MS26574-1 4200-001-1 22 M83383/01-03 SM600BA10N1 34

MS3320-15VL 4310-024-15 24 MS22073-7 1/2V 4001-008-705 20 MS26574-1A 4200-004-1 22 M83383/01-04 SM600BA15N1 34

MS3320-20 4310-001-20 24 MS22073-10 4001-001-10 20 MS26574-1L 4200-003-1 22 M83383/01-05 SM600BA20N1 34

MS3320-20L 4310-005-20 24 MS22073-10V 4001-008-10 20 MS26574-1 1/2 4200-001-105 22 M83383/01-06 SM600BA25N1 34

MS3320-20V 4310-019-20 24 MS22073-15 4001-001-15 20 MS26574-1 1/2A 4200-004-105 22 M83383/01-07 SM600BA35N1 34

MS3320-20VL 4310-024-20 24 MS22073-15V 4001-008-15 20 MS26574-1 1/2L 4200-003-105 22 M83383/01-08 SM600BA40N1 34

MS14154-1 4330-001-1 32 MS22073-20 4001-001-20 20 MS26574-2 4200-001-2 22 M83383/01-09 SM600BA50N1 34

MS14154-1L 4330-007-1 32 MS22073-20V 4001-008-20 20 MS26574-2A 4200-004-2 22 M83383/01-10 SM600BA60N1 34

MS14154-1V 4330-008-1 32 MS22073-D1 4001-011-1 20 MS26574-2L 4200-003-2 22 M83383/01-11 SM600BA75N1 34

MS14154-1VL 4330-009-1 32 MS22073-D1 1/2 4001-011-105 20 MS26574-2 1/2 4200-001-205 22 M83383/01-13 SM600BA100N1 34

MS14154-2 4330-001-2 32 MS22073-D2 4001-011-2 20 MS26574-2 1/2A 4200-004-205 22 M83383/02-01 SM600BA5A1 34

MS14154-2L 4330-007-2 32 MS22073-D2 1/2 4001-011-205 20 MS26574-2 1/2L 4200-003-205 22 M83383/02-03 SM600BA10A1 34

MS14154-2V 4330-008-2 32 MS22073-D3 4001-011-3 20 MS26574-3 4200-001-3 22 M83383/02-04 SM600BA15A1 34

MS14154-2VL 4330-009-2 32 MS22073-D4 4001-011-4 20 MS26574-3A 4200-004-3 22 M83383/02-05 SM600BA20A1 34

MS14154-2 1/2 4300-001-205 32 MS22073-D5 4001-011-5 20 MS26574-3L 4200-003-3 22 M83383/02-06 SM600BA25A1 34

MS14154-2 1/2L 4330-007-205 32 MS22073-D7 1/2 4001-011-705 20 MS26574-4 4200-001-4 22 M83383/02-07 SM600BA35A1 34

MS14154-2 1/2V 4330-008-205 32 MS22073-D10 4001-011-10 20 MS26574-4A 4200-004-4 22 M83383/02-08 SM600BA40A1 34

MS14154-2 1/2VL 4330-009-205 32 MS22073-D15 4001-011-15 20 MS26574-4L 4200-003-4 22 M83383/02-09 SM600BA50A1 34

MS14154--3 4330-001-3 32 MS22073-D20 4001-011-20 20 MS26574-5 4200-001-5 22 M83383/02-11 SM600BA60A1 34

MS14154-3L 4330-007-3 32 MS25244-5 700-001-5 16 MS26574-5A 4200-004-5 22 M83383/02-13 SM600BA75A1 34

MS14154-3V 4330-008-3 32 MS25244-7 1/2 700-001-705 16 MS26574-5L 4200-003-5 22 M83383/04-03 SM600BA100A1 34

MS14154-3VL 4300-009-3 32 MS25244-10 700-001-10 16 MS26574-7 1/2 4200-001-705 22 M83383/04-05 SM601BA10A1 34

MS14154-4 4330-001-4 32 MS25244-15 700-001-15 16 MS26574-7 1/2A 4200-004-705 22 M83383/04-07 SM601BA35A1 34

MS14154-4L 4330-007-4 32 MS25244-20 700-001-20 16 MS26574-7 1/2L 4200-003-705 22 M83383/04-08 SM601BA40A1 34

MS14154-4V 4330-008-4 32 MS25244-25 700-001-25 16 MS26574-10 4200-001-10 22 M83383/04-10 SM601BA60A1 34

LABINAL POWER SYSTEMS TF300-1E 43

ELECTRIC DISTRIBUTION & CONTROLS

Product Application

Information and Warranty

Disclaimer

It is buyer’s responsibility

to determine the suitability

of the particular device for

its application, and Labinal

Power Systems makes no

warranties, and assumes

no liability as to the suit-

ability of sufficiency for

buyer’s application of the

device. Ratings and switch

performance are valid only

on devices which have not

been subjected to unau-

thorized modifications or

misapplications.

Dimensional drawings are

available upon request.

Notice

The use of Labinal Power

Systems devices should

be in accordance with the

provisions of the National

Electric Code, U.L. and/or

other local, military or

industry standards that are

pertinent to the particular

end use. Installation or use

not in accordance with

these codes and standards

could be hazardous to per-

sonnel and/or equipment.

Government Cage Code

The Government Cage

Codes for electrical power

management products

manufactured by Labinal

Power Systems Aerospace

Group, Fluid & Electrical

Distribution Division are

81640, 76374, 96182,

99145 and 27878.

LABINAL POWER SYSTEMS

Headquarters : 36 rue Raymond Grimaud 31700 BLAGNAC - FRANCE

Tél. +33 (0)5 34 60 00 00 - Fax +33 (0)5 34 60 01 99

www.labinal-power.com

Local contact (Sarasota, FL):

LABINAL POWER SYSTEMS

2250 Whitfield Avenue

Sarasota, FL 34243 USA

Tel. 1-800-955-7354 • Fax 941-751-7173