XL-D4N

Manufacturer Part NumberXL-D4N
DescriptionElectromechanical Relay DPDT 5A 28VDC 730Ohm Socket
ManufacturerLeach International
TypeMagnetic Latching Relay
XL-D4N datasheet
 


Specifications of XL-D4N

Contact ArrangementDPDTCoil Current38.36 mA
MountingSocket  
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ENGINEERING DATA SHEET
APPLICATION NOTES:
101
102
103A
007
023
APPLICABLE SOCKET:
SO-1064-003
CONTACT ELECTRICAL CHARACTERISTICS
Contact rating per pole
and load type [1]
Resistive
Inductive [2]
Motor
Lamp
Overload
Rupture
Low level [3]
Time current characteristics [4]
©
Featuring
LEACH
power and control solutions
www.esterline.com
Data sheets are for initial product selection and comparison. Contact Esterline Power Systems prior to choosing a component.
Date of issue: 9/07
Magnetic latch operation
All weld construction
Contact arrangement
Qualified to
PRINCIPLE TECHNICAL CHARACTERISTICS
Contacts rated at
Weight
Dimensions
Special models available upon request.
Hermetically sealed, corrosion model can.
Load current in Amps
@28 Vdc
@115 Vac, 400 Hz, 1Ø
5
5
3
5
2
3
1
1
20
30
25
40
-
-
-
-
AMERICAS
EUROPE
6900 Orangethorpe Ave.
2 Rue Goethe
P.O. Box 5032
57430 Sarralbe
Buena Park, CA 90622
France
.
.
.
.
Tel: (01) 714-736-7599
Tel: (33) 3 87 97 31 01
Fax: (01) 714-670-1145
Fax: (33) 3 87 97 96 86
- 45 -
SERIES XL
RELAY - LATCH
2PDT, LOW LEVEL TO 5 AMP
2 PDT
MIL-PRF-6106
Low level, 28 Vdc and 115/200
Vac, 400Hz, 3Ø, case
grounded
0.036lb max
.41in x .81in x .64in
@115/200 Vac, 400 Hz, 3Ø
5
5
3
-
30
40
-
-
ASIA
Units 602-603 6/F Lakeside 1
No.8 Science Park West Avenue
Phase Two, Hong Kong Science Park
Pak Shek Kok, Tai Po, N.T.
Hong Kong
Tel: (852) 2 191 3830
Fax: (852) 2 389 5803
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XL-D4N Summary of contents

  • Page 1

    ... Sarralbe Buena Park, CA 90622 France . . . . Tel: (01) 714-736-7599 Tel: (33 Fax: (01) 714-670-1145 Fax: (33 SERIES XL RELAY - LATCH 2PDT, LOW LEVEL TO 5 AMP 2 PDT MIL-PRF-6106 Low level, 28 Vdc and 115/200 Vac, 400Hz, 3Ø, case grounded 0.036lb max .41in x .81in x .64in @115/200 Vac, 400 Hz, 3Ø 5 ...

  • Page 2

    ... Hz 30G / 70 to 3000 Hz 0.12DA / 20G /57 to 3000 Hz MIL-STD-202 214 2 1G (0.4G /Hz 2000 Hz (0.2G /Hz 2000 Hz) 15 minutes each plane 200G / 6 ms 100G / µ max 4 ms max 0.5 ms max 0.036lb - 46 - SERIES XL R [ 14.5 7.3 9 4.5 9.9 5 11.25 5.7 182 43 Page ...

  • Page 3

    ... PLACES .032 .640 MAX .025 .640 MAX 1.062 .810 MAX .141 TYP .410 MAX 1.078 1.280 MAX MOUNTING STYLE D 1.078 1.062 .640 MAX .320 .133 .141 .810 MAX .410 MAX .025 1.280 MAX MOUNTING STYLE J SERIES XL 1 FULL R 4 PLACES 1 Page ...

  • Page 4

    ... TERMINAL TYPE 7 FINISH: BODY - TIN/LEAD TERMINALS - TIN/LEAD STANDARD TERMINAL LAYOUT A2 A1 .095 LAST ENERGIZED .075 .150 .190 TYP CONTRASTING BEAD POLARIZING PIN FOR B2 B1 TERMINAL TYPE 4 ONLY SERIES XL CONTRASTING BEADS .150 TYP .106 .053 Page ...

  • Page 5

    Application notes DERATING OF CONTACTS FOR DC VOLTAGES To establish a standard for the derating of relay contacts is, at best, a subjective practice. Limitations are governed by the type of relay, contact gap, maximum voltage capabilities of the relay ...

  • Page 6

    ... Change in coil resistance due to change of ambient temperature can be calculated by the following formula. "Rule of Thumb" : For each 10°C change of temperature, coil resistance will change approximately 4%. 2. High and low temperature pick up voltage Date of issue: 6/00 RELAYS AND TEMPERATURE VARIATIONS Operating Current Voltage DOWN UP ...

  • Page 7

    Calculation of coil temperature rise when R initial and R final are known: Delta T = (234 Delta T = Temperature rise (° Initial temperature (°C) 1 ...

  • Page 8

    Application notes CURVES FOR DC VOLTAGES ABOVE NORMAL RATING: RESISTIVE LOAD ONLY (without arc suppression) Date of issue: 6/ N°103A Page ...

  • Page 9

    Application notes The inductive nature of relay coils allows them to create magnetic forces which are converted to mechanical movements to operate contact systems. When voltage is applied to a coil, the resulting current generates a magnetic flux, creating mechanical ...

  • Page 10

    Types of suppressors: Passive devices. The resistor capacitor circuit It eliminates the power dissipation problem, as well as fast voltage rises. With a proper match between coil and resistor, approximate capacitance value can be calculated from 0.02xT/R, where ...

  • Page 11

    ... At the opening time the current becomes constant as a result of practically zero opening speed. Due to this kind of behavior, this type of suppression must be avoided for power relays. For small relays which have to switch low currents of less than 0.2 A, degradation of life is not that significant and the method may be acceptable. ...

  • Page 12

    The diode + resistor network It eliminates the inconvenience of the resistor alone, explained above, and it limits the action of a single diode now preferred to used the diode + zener network. The diode + zener network ...

  • Page 13

    ... If two or more rows of relays are installed, allow clearance of 1/8 inch between rows, (figures “C” and “D”). Provide 3/16-inch space between relays if used in opposition (figure “E”). Date of issue: 9/07 MOUNTING DISTANCE BETWEEN RELAYS Applicable to XL, X, XA, XCL, XC, YL, Y, YA, YCL, YC, YCA, JS/JSA, JA, JL, J, KA, KL N° ...

  • Page 14

    ... Data sheets are for initial product selection and comparison. Contact Esterline Power Systems prior to choosing a component. Date of issue: 8/09 BASIC SOCKET SERIES DESIGNATION FOR: Series XL MEETS THE REQUIREMENTS OF: MIL-DTL-12883 .xx ±.01; xxx ±.005 .030 lb. max -70° +125° C ...