hochtemperaturbeständig, Liefermöglichkeiten auf Anfrage
Standard /
Standard
Mounting Type
/
Befestigungsarten
W
T
Z
Float mounted (see page 15)
/
Schwimmend (siehe Seite15)
Clinch nut 4-40 UNC (see page 59)
/
Einnietmutter 4-40 UNC (siehe Seite 59)
Clinch nut M3 (see page 59)
/
Einnietmutter M3 (siehe Seite 59)
Einnietmutter 4-40 UNC, selbstsichernd (siehe Seite 59)
Einnietmutter M3, selbstsichernd (siehe Seite 59)
TS
Clinch nut 4-40 UNC, self locking (see page 59)
ZS
Clinch nut M3, self locking (see page 59)
No. of Contacts /
Polzahl
Shell size /
Gehäusegröße
09
1
15
2
25
3
37
4
50
5
Contact Type /
Kontaktart
P
Pin contacts /
Stiftkontakte
S
Socket contacts /
Buchsenkontakte
Contact Design (e. g.)
/
Kontaktvariante (z. B.)
0
1
4
5
14
Solder pot
/
Löttopf
Straight PCB termination /
Leiterplattenanschluss, gerade
Wire-wrap /
Wire Wrap
Right angled PCB termination /
Leiterplattenanschluss, abgewinkelt
Straight PCB termination
/
Leiterplattenanschluss, gerade
For more contacts see page 16 onwards
/
Weitere Kontakte siehe Seite 16 ff.
Machined contacts /
Gedrehte Kontakte
S
Stamped contacts
/
Gestanzte Kontakte
Direction of Right Angled Contacts
/
Richtung der abgewinkelten Kontakte
Standard /
Standard
R
Reverse (Not available with stamped contacts)
/
Revers (nicht mit gestanzten Kontakten möglich)
Performance Classes Available in Accordance with DIN 41652
/
Lieferbare Gütestufen nach DIN 41652
Standard insulator /
Standardisolierkörper
G1
= 500 Contact cycles
/
Steckzyklen
= Performance class 1
/
Gütestufe 1
G2
= 200 Contact cycles
/
Steckzyklen
= Performance class 2
/
Gütestufe 2
G3
= 50 Contact cycles
/
Steckzyklen
= Performance class 3
/
Gütestufe 3
Pin connector with dimples
/
Stiftsteckverbinder mit Kontaktnoppen
FM insulator /
FM-Isolierkörper
All connectors are in accordance with the standards of performance class 1; no performance class
number necessary! (1.3 µm (51 microinches) Au over Ni)
Alle Steckverbinder erfüllen die Anforderungen der Gütestufe 1; Typenbezeichnung ohne Gütestufen!
(1,3 µm Au über Ni)
Modifications
/
Modifikationen
ALL DIMENSIONS IN MILLIMETERS - VALUES FOR INCHES IN BRACKETS - TECHNICAL DATA SUBJECT TO CHANGE
DS 10/2007
9
Technical Data
Technische Daten
Mechanical Data
Mechanische Daten
Mechanical Data
Mechanische Daten
Mating force per signal contact
Steckkraft pro Signalkontakt
Unmating force per signal contact
Ziehkraft pro Signalkontakt
max. torque *
max. Anzugsmoment *
* Not for locking screws
* Nicht für Verriegelungsschrauben
3,4 N
0,2 N
40 Ncm (0,295 ft.lb.)
40 Ncm
Electrical Data
Elektrische Daten
Electrical Data
Elektrische Daten
Current rating at room temperature
Maximale Stromstärke bei Raumtemperatur
Test voltage between 2 contacts / shell and contact
Prüfspannung zwischen 2 Kontakten bzw. Kontakt und Gehäuse
Meets transition resistance requirements per contact pair in line with DIN 41652:
Erfüllt Übergangswiderstand pro Kontaktpaar nach DIN 41652 für:
- Straight contacts
/
gerade Kontakte
- Right angled contacts
/
abgewinkelte Kontakte
- Right angled contacts - 50 way
/
abgewinkelte Kontakte bei 50 Polen
Insulation resistance between contacts
Isolationswiderstand Kontakt / Kontakt
Volume resistivity
Spezifischer Durchgangswiderstand
Dielectric strength
Spezifische Durchschlagsfestigkeit
5A
1200 V / 1 min.
10 m
25 m
35 m
5000 M
10
16
cm
50 kV / mm
Materials and Platings
Materialien und Oberflächen
Materials and Platings
Materialien und Oberflächen
Shell
Gehäuse
Type /
Type
Insulator
Isolierkörper
Steel
Stahl
FH
Polyester, heat resistant,
glass filled (UL94V-0), natural
Polyester,
hochtemperaturbeständig,
glasfaserverstärkt (UL94V-0), natur
150 °C (302 °F)
F
Polyester, glass filled
(UL94V-0), white
Polyester, glasfaserverstärkt
(UL94V-0), weiß
FM
Polyester, glass filled (UL94V-0),
green
Polyester, glasfaserverstärkt
(UL94V-0), grün
Relative temperature index according
to UL 746 B
rel.
Temperaturindex nach
UL 746 B
Heat deflection temperature limit
according to DIN 53461 HDT/A
Formbeständigkeitstemperatur nach
DIN 53461 HDT/A
Sub temperature limit
Untere Grenztemperatur
Shell plating (standard)
Gehäuseoberfläche (Standard)
Shell (standard)
Gehäuse (Standard)
Shell (K120)
Gehäuse (K120)
125 °C (257 °F)
130 °C (266 °F)
200 °C (392 °F)
255 °C ( 491 °F)
210 °C (410 °F)
-55 °C (-67 °F)
Tin plated over nickel
verzinnt über Nickel
-55 °C (-67 °F)
-55 °C (-67 °F)
Yellow chromate over zinc plating
Not RoHS compliant
verzinkt und gelb chromatiert
nicht RoHS konform
Pin connector shell without dimples
Stiftsteckverbindergehäuse ohne
Kontaktnoppen
Tin plated over nickel, pin connector
shell
with
dimples
verzinnt über Nickel,
Stiftsteckverbindergehäuse
mit
Kontaktnoppen
Tin plated over nickel, pin connector
shell
without
dimples
verzinnt über Nickel,
Stiftsteckverbindergehäuse
ohne
Kontaktnoppen
Pin connector shell with dimples
Stiftsteckverbindergehäuse mit Kontaktnoppen
Shell (K121)
Gehäuse (K121)
Contact material
Kontaktmaterial
Copper alloy
Kupfer-Legierung
10
DS 10/2007
TECHNISCHE ÄNDERUNGEN VORBEHALTEN – MAßE IN MILLIMETER (INCHES IN KLAMMERN)
Technical Data
Technische Daten
Modifications
Modifikationen
All FCT D-Sub connectors (including crimp versions etc.) are available in many different combinations of materials and platings. For example, shells can
be supplied in a non – magnetic version made of brass, which can be electroless nickel, or gold plated for use in aerospace technology.
Alle FCT D-Sub Steckverbinder (auch Crimp Versionen, usw.) sind in vielen verschiedenen Material- und Oberflächenkombinationen erhältlich. So z. B.
Gehäuse in nichtmagnetischer Ausführung aus Messing bzw. chemisch vernickelte oder vergoldete Gehäuse für Luft- und Raumfahrtanwendungen.
Contact Arrangements
Polbilder
Face view of socket connector
Blick auf Steckseite Buchsensteckverbinder
Face view of pin connector
Blick auf Steckseite Stiftsteckverbinder
Shell Size
Gehäusegröße
Number of Contacts
Polzahl
Pin Connector, Connecting Side
Stiftsteckverbinder, Ansicht steckseitig
1
9
2
15
3
25
4
37
5
50
DS 10/2007
ALL DIMENSIONS IN MILLIMETERS - VALUES FOR INCHES IN BRACKETS - TECHNICAL DATA SUBJECT TO CHANGE
mega16 keeps failing to download
Checked that the ISP connection is correct
The chip must be good and the power supply is fine (because JTAG can be used)
But ISPs are just badSo I compared the differe...
I know that MSP430f149 has USART interface and no IIC hardware interface, but I don't know if it has SPI interface????
Recently I made it communicate with 93C46. If 430f149 has SPI interface, programm...
I want to use ARM's external bus RDATA[15:0] and RADDR[25:0] to expand FPGA. How should I do it if there is an operating system? Do I need to write a driver for FPGA? Please give me some advice. I rea...
An FTP site with a lot of information on electronics and communications: Address: ftp://[url=http://www.allpdf.net/][color=#003399]www.allpdf.net[/color][/url] Username: guest Password: guest...
[font=微软雅黑][size=4]Watch the video to learn about Tektronix's cost-effective spectrum analyzer, and fill out the form to win a gift! [/size][/font] [font=微软雅黑][size=4]For more details, please see: [ur...
1. Overview
Will passive devices
produce nonlinear intermodulation distortion? The answer is yes! Although there is no systematic theoretical analysis, it has been found in engineerin...[Details]
1 Introduction
A wide variety of communication cables and control cables are widely used in various instruments and control equipment. Whether the cable is well-conducted and
whether
th...[Details]
Remote keyless entry (RKE) systems have become popular with users, with more than 80% of new cars in North America and more than 70% in Europe equipped with RKE systems. In addition to the obvious ...[Details]
The Mobile Industry Processor Interface (MIPI) Alliance is an organization responsible for promoting the standardization of software and hardware in mobile devices. It has released the D-PHY specif...[Details]
There are three types of mobile TV: one is based on analog TV broadcasting network, another is based on mobile communication network, and the other is based on digital broadcasting network. The f...[Details]
1 Introduction
Ultrasonic waves have strong directivity, slow energy consumption, and can propagate over long distances in a medium, so they are used for distance measurement. Ultrasonic detec...[Details]
From the PIC16F946 datasheet, we know that there are two ways to write values to the LCD for display:
1. Directly write the value to LCDDATA1~LCDDATA23
2. Use disconnect t...[Details]
MediaTek (2454) announced the acquisition of F-MStar (3697) and attracted the attention of IC design industry. This morning, Gartner Semiconductor Industry Research Director Hong Cenwei analyzed ...[Details]
Toyohashi University of Technology demonstrated electric field coupled wireless power supply technology using life-size car tires and roads at the wireless technology exhibition "Wireless Technolog...[Details]
1 Introduction
There have been many studies on the detection and protection of power grid short circuit and line fault. The short circuit, overload and overvoltage protectors on the market have ...[Details]
Single-chip microcomputers are widely used because of their small size, powerful functions and low price. This article introduces the method of designing a micro electronic piano using the AT89C51 sin...[Details]
1. When the slip speed regulating motor is undergoing frequency conversion and energy saving transformation, the original excitation box (referred to as the speed regulating box) and the original s...[Details]
Introduction
X1226 has the functions of clock and calendar. The clock relies on hour, minute and second registers to track, and the calendar relies on date, week, month and year registers to tr...[Details]
With the rapid development of wireless
digital communication
, more challenges have been raised for integrated circuit design and testing. In the product design stage, in order to ensure
t...[Details]
Microchip MCU
京公网安备 11010802033920号
EEWORLD
