207534-3 TE Connectivity, 207534-3 Datasheet - Page 3

207534-3

Manufacturer Part Number

207534-3

Description

SKT HDR ASSY,36 POSN,METRIMATE

Manufacturer

TE Connectivity

Type

Powerr

Datasheet

1.207534-3.pdf (58 pages)

Specifications of 207534-3

Gender

SKT

Body Orientation

Straight

Housing Material

Nylon

Number Of Contacts

36POS

Number Of Ports

1Port

Number Of Terminals

Current Rating (max)

14/ContactA

Pitch (mm)

5mm

Contact Material

Phosphor Bronze

Operating Temp Range

-55C to 130C

Voltage Rating Max

600VDC/600VAC

Mounting Style

Through Hole

Termination Method

Solder

Contact Plating

Gold Over Nickel

Rohs Compliant

Product Type

Connector

Connector Type

Header

Keyed

Mount

Printed Circuit Board

Pcb Mounting Orientation

Vertical

Mounting Ears

With

Post Type

Solder Post

Mating Connector Lock

With

Pcb Mount Retention

With

Mating Connector Lock Type

Locking Latch

Voltage (vac)

600

Current Rating (a)

Termination Post Length (mm [in])

4.60 [0.181]

Solder Tail Contact Plating

Tin-Lead over Nickel

Connector Configuration

Square Grid

Number Of Positions

Coaxial Socket

Without

Centerline (mm [in])

5.00 [0.197]

Jackscrew

Without

8/32 Insert

Pcb Mount Retention Type

Mounting Holes

Contact Plating, Mating Area, Material

Gold (30)

Contact Base Material

Phosphor Bronze

Housing Color

Red

Ul Flammability Rating

UL 94V-0

Rohs/elv Compliance

Not ELV/RoHS compliant

Lead Free Solder Processes

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

Lead Free Status / RoHS Status

Not Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

207534-3

Manufacturer:

TE Connectivity AMP Connectors

Quantity:

228

Current page: 3 of 58
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Current Rating

Ve r i f i c a t i o n

Catalog 82045

Revised 11-03

www.tycoelectronics.com

Dimensions are in millimeters

and inches unless otherwise

specified. Values in brackets are

equivalent U.S. Customary Units.

Metrimate Pin and Socket Connectors

Performance Characteristics

Can a contact rated at

10 amperes carry 10 amperes?

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

levels may be lower than

specified levels. For exam-

ple, many manufacturers,

including Tyco Electronics,

test a single contact in air.

This gives an accurate

measure of the basic cur-

rent-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

connector 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,

environmental cycling, and

other degradation factors

take their toll, the contact’s

current-carrying capacity

decreases. A prudent

design must set current lev-

els for such end-of-design-

life (EODL) conditions.

Practical current-carrying

capacity is not an absolute,

but an application-depen-

dent condition.

New Method Simplifies

R a t i n g s

To help the designer set the

appropriate current level,

Tyco Electronics has devel-

oped a method of specify-

ing current-carrying

capacity. This method takes

into account the various

application factors that

influence current rating.

Dimensions are shown for

reference purposes only.

Specifications subject

to change.

The method can be

summarized as follows:

Te m p e r a t u r e

One other factor influencing

current levels is the maxi-

mum operating tempera-

ture, for example, 105°C. If

the application has a high

ambient temperature (over

75°C) the contact’s T-rise is

limited by the maximum

operating temperature. For

example, an application

temperature of 90°C limits

the contact T-rise to 15°C.

Since current produces

heat (the I

rent must be lowered to limit

the T-rise.

A contact’s T-rise depends

not only on its I

heating, but also on its abil-

ity to dissipate the heat.

Consider a contact in a

multi-contact housing. Joule

heating in multiple contacts

will raise the local ambient

temperature. Since the con-

tact will not be able to dissi-

pate its own heat as well by

convection, the maximum

T-rise will be realized at a

lower current level. Conse-

quently, the allowable cur-

rent level must be lower to

maintain an acceptable

T-rise.

The contact is aged to

EODL conditions by dura-

bility cycling, thermal

cycling, and environmen-

tal exposure.

The contact’s resistance

stability is verified.

The current necessary to

produce the specified

temperature rise is mea-

sured. This T-rise is usu-

ally 30°C.

A rating factor is deter-

mined to allow derating of

multiple contacts in the

same housing and for dif-

ferent conductor sizes.

( C o n t i n u e d )

USA: 1-800-522-6752

Canada: 1-905-470-4425

Mexico: 01-800-733-8926

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

R law), the cur-

R Joule

For a given connector, the

current level will be set by

the loading density. A con-

nector containing 50% cur-

rent-carrying contacts will

permit higher currents (per

contact) than a connector

will at 75% loading. The

loading percentage

assumes an even distribu-

tion of contacts within the

housing. If all 10 contacts

are grouped together in one

section of a 20-position

connector, the loading den-

sity may approach 100%.

The Importance of EODL

As stated, T-rise in a contact

depends on both resistance

and current. As it ages, a

contact’s resistance will

increase. The contact

designer will specify a maxi-

mum resistance for the con-

tact, this level is the

end-of-design-life resis-

tance. Before the contact is

tested for current, Tyco

Electronics subjects it to a

sequence of tests that exer-

cise many major failure

mechanisms and thereby

simulates EODL conditions.

Conditioning includes mat-

ing cycling, industrial

mixed-flowing gases,

humidity and temperature

cycling, and vibration to

sequentially introduce wear,

corrosion, stress relaxation,

and mechanical distur-

bance.

P r e s e n t a t i o n

The presentation of current-

carrying capacity in Tyco

Electronics product specifi-

cations includes two parts:

First, a base curve show-

ing current levels versus

T-rise for a single circuit

and the largest wire size.

This represents the maxi-

mum current capacity of

South America: 55-11-3611-1514

Hong Kong: 852-2735-1628

Japan: 81-44-844-8013

UK: 44-141-810-8967

207534-3 TE Connectivity, 207534-3 Datasheet - Page 3

207534-3

Specifications of 207534-3

Available stocks

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