201358-1 TE Connectivity, 201358-1 Datasheet - Page 7

201358-1

Manufacturer Part Number

201358-1

Description

RECTANGULAR HOUSING, PLUG, 50WAY

Manufacturer

TE Connectivity

Type

Housingr

Series

Datasheets

1.201358-1.pdf (100 pages)

2.201358-1.pdf (2 pages)

Specifications of 201358-1

Number Of Contacts

50POS

Number Of Contact Rows

Body Orientation

Straight

Pitch (mm)

3.81mm

Gender

Housing Material

Phenolic

Operating Temp Range

-55C to 150C

Housing Color

Black

Product Height (mm)

19.05mm

Product Depth (mm)

23.52mm

Product Length (mm)

56.91mm

No. Of Contacts

No. Of Rows

Pitch Spacing

3.81mm

Contact Gender

Connector Mounting

Cable

Peak Reflow Compatible (260 C)

Connector Type

Rectangular Power

Rohs Compliant

Yes

Agency Approvals

CSA, UL

Angle

Straight

Brand/series

M Series

Color

Black

Color, Housing

Black

Flammability Rating

UL94V-0

Length, Overall

2.595 "

Material, Housing

Phenolic

Mounting Type

Free Hanging, Panel Mount

Number Of Positions

Primary Type

Interconnect System

Standards

RoHS and ELV Compliant

Temperature, Operating

-55 to +150 °C

Product Type

Housing

Type Of Connector

Standard

Mount

Free Hanging, Panel

Mounting Hardware

None

High Voltage

Center Fastener

Connector Style

Plug

Rohs/elv Compliance

RoHS compliant, ELV compliant

Lead Free Solder Processes

Wave solder capable to 240°C, Wave solder capable to 260°C, Wave solder capable to 265°C

Rohs/elv Compliance History

Always was RoHS compliant

Packaging Method

Loose Piece

Lead Free Status / RoHS Status

Compliant

For Use With

Type II, type III+ and subminiature coaxicon contacts

Current page: 7 of 100
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The total current capacity of

each contact in a given con-

nector is dependent upon the

heat rise resulting from the

combination of electrical

loads of the contacts in the

connector arrangement and

the maximum ambient tem-

perature in which the

connector will be operating.

Caution must be taken to

ensure that this combination

of conditions does not cause

the internal temperature of

the connector to exceed the

maximum operating temper-

ature of the housing material.

Several variables which must

be considered when deter-

mining this maximum current

capability for your applica-

tion are:



Current Rating Verification

Can a contact rated at 10

amps carry 10 amps?

Maybe yes, but probably not.

The reason lies in the test

conditions used to rate the

contact. If these conditions

do not adequately reflect the

application conditions, the

actual allowable current lev-

els may be lower than

specified levels. For example,

many manufacturers, includ-

ing Tyco, test a single contact

in air. This gives an accurate

measure of the basic current-

carrying capacity of the

contact. Use the contact

alone in air and it can cer-

tainly carry 10 amperes. Use

it in a multi-position connec-

tor surrounded by other

current-carrying contacts or

in high ambient temperatures,

and the contact should carry

less current.

Similarly, as the contact ages

and stress relaxation, environ-

mental cycling, and other

degradation factors take their

toll, the contact’s current-

carrying capacity decreases.

A prudent design must set

current levels for such end-of-

design-life (EODL) conditions.

Catalog 82003

Revised 06-08

www.tycoelectronics.com

Wire Size - Larger wire will

carry more current since it

has less internal resistance

to current flow and gener-

ates less heat. The wire also

conducts heat away from

the connector.

Dimensions are in millimeters

and inches unless otherwise

specified. Values in brackets are

equivalent U.S. Customary Units.

Contract Carrying Capabilities

AMP M Series

Pin and Socket Connectors



Practical current-carrying

capacity is not an absolute,

but an application-dependent

condition.

New Method Simplifies

Ratings

To help the designer set the

appropriate current level,

Tyco has developed a

method of specifying cur-

rent-carrying capacity. This

method takes into account

the various application fac-

tors that influence current

rating.

The method can be summa-

rized as follows:



The contact is aged to

EODL conditions by durabil-

ity cycling, thermal cycling,

and environmental expo-

sure.

The contact’s resistance

stability is verified.

The current necessary to

produce the specified tem-

perature rise is measured.

This T-rise is usually 30°C.

A rating factor is deter-

mined to allow derating of

multiple contacts in the

same housing and for differ-

ent conductor sizes.

Connector Size - In general,

with more circuits in a con-

nector, less current per

contact can be carried.

CONTACT CURRENT GUIDE Maximum Current (Amperes)

Dimensions are shown for

reference purposes only.

Specifications subject

to change.



Temperature

One other factor influencing

current levels is the maximum

operating temperature, for

example, 105°C. If the appli-

cation has a high ambient

temperature (over 75°C) the

contact’s T-rise is limited by

the maximum operating tem-

perature. For example, an

application temperature of

90°C limits the contact T-rise

to 15°C. Since current pro-

duces heat (the I 2 R law), the

current must be lowered to

limit the T-rise.

A contact’s T-rise depends

not only on its I 2 R Joule heat-

ing, but also on its ability to

dissipate the heat. Consider a

contact in a multi-contact

housing. Joule heating in

multiple contacts will raise

the local ambient tempera-

ture. Since the contact will

not be able to dissipate its

own heat as well by convec-

tion, the maximum T-rise will

be realized at a lower current

level. Conse-quently, the

allowable current level must

be lower to maintain an

acceptable T-rise.

For a given connector, the

current level will be set by the

loading density. A connector

Current Load Distribution -

Spreading those lines with

greater current loads

through-out the connector,

particularly around the

outer perimeter, will

enhance heat dissipation.

USA: 1-800-522-6752

Canada: 1-905-470-4425

Mexico: 01-800-733-8926

C. America: 52-55-5-729-0425

NOTE: All part numbers

are RoHS Compliant

11.85

7.5



containing 50% current-carry-

ing contacts will permit higher

currents (per contact) than a

connector will at 75% loading.

The loading percentage

assumes an even distribution

of contacts within the housing.

If all 10 contacts are grouped

together in one section of a

20-position

connector, the loading density

may approach 100%.

The Importance of EODL

As stated, T-rise in a contact

depends on both resistance

and current. As it ages, a con-

tact’s resistance will increase.

The contact designer will

specify a maximum resistance

for the contact, this level is the

end-of-design-life resistance.

Before the contact is tested

for current, Tyco subjects it to

a sequence of tests that exer-

cises the major failure

mechanisms and thereby sim-

ulates EODL conditions.

Conditioning includes mating

cycling, industrial mixed-flow-

ing gases, humidity and

tempera-ture cycling, and

vibration to sequentially

introduce wear, corrosion,

stress relaxation, and

mechanical disturbance.

Ambient Temperature -

With higher ambient

temperatures, less current

can be carried.

South America: 55-11-3611-1514

Hong Kong: 852-2735-1628

Japan: 81-44-844-8013

UK: 44-141-810-8967

Type XII Upgrade

Size 8 Upgrade

.125 POWERBAND

Contact

Size 8

Type XII

Type I, Type II/III +

Upgrade

Type III + , Type II,

Type III + Posted

Size 20 Upgrade

20 DF

201358-1 TE Connectivity, 201358-1 Datasheet - Page 7

201358-1

Specifications of 201358-1

Related parts for 201358-1