EEWORLDEEWORLDEEWORLD

Part Number

Search

1365-6-74-6

Description
Board Connector, 74 Contact(s), 2 Row(s), Male, Straight, 0.05 inch Pitch, Solder Terminal, Locking, Receptacle
CategoryThe connector   
File Size137KB,1 Pages
ManufacturerConexcon Group
Environmental Compliance
Download Datasheet Parametric View All

1365-6-74-6 Overview

Board Connector, 74 Contact(s), 2 Row(s), Male, Straight, 0.05 inch Pitch, Solder Terminal, Locking, Receptacle

1365-6-74-6 Parametric

Parameter NameAttribute value
Is it Rohs certified?conform to
MakerConexcon Group
Reach Compliance Codeunknown
body width0.134 inch
subject depth0.394 inch
body length1.85 inch
Body/casing typeRECEPTACLE
Connector typeBOARD CONNECTOR
Contact to complete cooperationAU ON NI
Contact point genderMALE
Contact materialBRASS
contact modeRECTANGULAR
Contact resistance20 mΩ
Contact styleSQ PIN-SKT
Dielectric withstand voltage300VAC V
Durability50 Cycles
Insulation resistance1000000000 Ω
Manufacturer's serial number1365
Plug contact pitch0.05 inch
Match contact row spacing0.05 inch
Installation option 1LOCKING
Installation methodSTRAIGHT
Installation typeBOARD
Number of connectorsONE
PCB row number2
Number of rows loaded2
Maximum operating temperature105 °C
Minimum operating temperature-40 °C
PCB contact patternRECTANGULAR
PCB contact row spacing1.27 mm
Plating thickness30u inch
Rated current (signal)1 A
GuidelineUL
reliabilityCOMMERCIAL
Terminal length0.094 inch
Terminal pitch1.27 mm
Termination typeSOLDER
Total number of contacts74
Base Number Matches1
DUAL ROW & BODY VERTICAL PIN HEADER
1365 SERIES.
1.27 x 1.27 mm. (0.050” x 0.050”) pitch.
General Features
Electrical Features
Available in 4 through 80 circuits
Mates with sockets dual row 1.27 mm pitch 1295, 1297,
1305, 1284, 1310, 1314 and crimp or IDC connector series
0,40 mm. square pin with different plating
Available different pin length.
Contact Sales Office
Voltage rating: < 100V
Current rating: < 1 A
Contact resistance: < 20 mΩ
Dielectric Withstanding Voltage: 300 V AC/minute
Insulation Resistance: >1000 MΩ
Capacitance: < 2 pF at 1 KHz
Materials
Insulator: Polyester LCP UL 94 V-0
Contact: Brass
Operating temperature: -40ºC to +105ºC
RoHS Compliant
Mechanical features
Pin retention force to insulator: > 0,15 Kgf
Durability: 50 cycles
Dimension Information
B
±0.30
A
±0.30
1.27
±0.10
0.40
3.40
Ordering Information:
1365 -
1
2.00
T-
2
XX- C
3
4
1. Connector Series
2. (T) Contact Plating
2.00
T =
2.
Tin plated
T =
3.
Gold flash over nickel
Recommended Finish
T =
5.
15µ” gold over nickel
T =
6.
30µ” gold over nickel
1.27
±0.13
Contact
Zone
3. (XX) Number of circuits
Available in 04 through 80 circuits
H
±0.25
4. (C) Pin Lenght
RECOMMENDED HOLE PATTERN
(Tolerance ±0.05)
D
±0.25
1.27
1.27
F
±0.25
Solder
Zone
ø0.65
RECOMMENDED HOLE PATTERN
DIMENSIONS:
XX
A
½
1.27
2
1
XX
B
½
1.27
2
C =
1. H
= 2.35 mm.;
D
= 6.35 mm. ;
F
= 2.30 mm.
C =
2. H
= 5.50 mm.;
D
= 3.00 mm.;
F
= 5.50 mm.
C =
3. H
= 9.00 mm.;
D
= 8.60 mm.;
F
= 2.85 mm.
C =
4. H
= 3.00 mm.;
D
= 4.30 mm.;
F
= 2.85 mm.
C =
5. H
= 4.00 mm.;
D
= 17.2 mm.;
F
= 2.30 mm.
C =
6. H
= 4.50 mm.;
D
= 10.0 mm.;
F
= 2.40 mm.
C =
7. H
= 6.00 mm.;
D
= 14.20 mm.;
F
= 6.00 mm.
C =
8. H
= 6.00 mm.;
D
= 4.90 mm.;
F
= 6.00 mm.
C =
9. H
= 5.00 mm.;
D
= 7.10 mm.;
F
= 5.00 mm.
C =
A. H
= 3.75 mm.;
D
= 11.30 mm.;
F
= 2.50 mm.
C =
B. H
= 4.00 mm.;
D
= 4.80 mm.;
F
= 4.00 mm.
C =
C. H
= 10.0 mm.;
D
= 10.0 mm.;
F
= 3.60 mm.
XX
=
Number of circuits
A-XX
FULL LINE CATALOGUE
Forum friends give examples to explain these operators in C language
Which forum friend can give examples to explain these operators in C language? Conditional operators in C language? : Bitwise XOR ^= Bitwise OR |= Comma operator,...
QWE4562009 51mcu
Talk about the upper and lower tubes of the buck circuit_DC-DC BUCK bootstrap circuit
What is a bootstrap capacitor? The DC-DC BUCK chip has a pin called BOOT, some called BST, as shown below:How does the bootstrap capacitor work? The following is the block diagram of the DCDCBUCK chip...
Jacktang Analogue and Mixed Signal
Machine interface and boot design based on MCU+DSP embedded platform
[size=5]Machine interface and boot design based on MCU+DSP embedded platform[/size][size=5] [/size] [size=5]1 Introduction[/size] [size=5] [/size] [size=5] Automation control requires real-time data a...
fish001 Microcontroller MCU
Real-time solution to single chip microcomputer delay
1. If the MCU uses the delay function to delay, that is, the empty waiting method is used to delay, but the MCU has only one core and cannot split itself to handle other things. If this method is used...
Aguilera Microcontroller MCU
CB5654 Development Board Review 2
The previous article ( https://en.eeworld.com/bbs/thread-1187454-1-1.html ) only analyzed the board based on the schematic diagram. This article will directly power it on and take a look. The CB5654 d...
tobot Domestic Chip Exchange
[Raspberry Pi Pico Review] 3. My first project
After the previous preparation, the basic knowledge is almost known, and you can start to build your own project. The basic operation method will not be explained in detail, and the picture will be di...
tjCFeng Special Edition for Assessment Centres

EEWorld
subscription
account

EEWorld
service
account

Automotive
development
circle

Datasheet   0 1 2 3 4 5 6 7 8 9 A B C D E F G H I J K L M N O P Q R S T U V W X Y Z
Room 1530, 15th Floor, Building B, No. 18 Zhongguancun Street, Haidian District, Beijing Telephone: (010) 82350740 Postal Code: 100190
Copyright © 2005-2024 EEWORLD.com.cn, Inc. All rights reserved 京ICP证060456号 京ICP备10001474号-1 电信业务审批[2006]字第258号函 京公网安备 11010802033920号