Rubber Bushing for MS Connector Cable Clamp MMS3420 (MMS3420-20)

Rubber Bushing for MS Connector Cable Clamp MMS3420 MMS3420-20

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Product Details:

Manufacturer part number: MMS3420-20

Brand: MISUMI

Price: 1.43

Delivery time: 5 Days


Technical Data:

Inner Diameter (Cable Extraction Port Diameter): 23.80 mm


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● Can also be used for products from other manufacturers as long as they are cable clamps compliant with MIL standards.

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Part Number

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MMS3420-20

Part Number
MMS3420-20
Part Number
Standard Unit Price
Minimum order quantityVolume Discount
Standard
Shipping Days
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Inner Diameter (Cable Extraction Port Diameter)
(mm)

1.43 €

1 Available 5 Days 23.80

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  1. 1

MIL Standards MS Connector

Common Specifications

Applied Wire Size and Contact Size

Applicable wire coating strip length is about 1 to 3 mm plus the soldering hole length (L dimension) of the contact. In addition, the L dimension and D dimension are the same for the male connector (pin) and female connector (socket). Also, confirm whether the cable will fit into the internal diameter of the cable clamp when selecting cables.
Contact Conforming wire size
Contact size Soldering Hole Diameter øD (mm) Pin Contact Contacting Part Diameter øA (mm) L (mm) AWG Conductor Cross-Sectional Area (mm2)
#16 1.85 1.6 6.4 16 to 20 1.25 or Less
#12 2.95 2.4 9.5 12 to 14 3.5 or Less
#8 5.31 3.6 12.7 8 to 10 8 or Less
#4 8.45 5.7 15.9 4 to 6 22 or Less
#0 11.91 9.1 15.9 0 to 2 50 or Less
Applied Wire Size and Contact Size

Electrical Characteristics

Contact Resistance Contact size Test Current DC Voltage drop Meets the left value when it is measured with the fall-of-potential test method where the male and female connectors are coupled in the same way as in use and a test current is energized.
#16 20 A 21 mV or less
#12 35 A 20 mV or less
#8 60 A 12 mV or less
#4 110 A 10 mV or less
#0 200 A 10 mV or less

Mechanical Characteristics

Temperature Shock Low Temperature High Temperature Consider the left low temperature and high temperature as one cycle and continuously perform 5 cycles. Leave low temperature and high temperature for 30 minutes or more.
-55 +0°C
-5°C
+125 +3°C
-0°C
(1) There is no crack or breakage in connectors.
(2) The withstand voltage test is passed after completion.
Humidity Resistance Meets the following withstand voltage. After exposing a pair of a connected connector and panel mount to a temperature of 71 ± 2°C and a relative humidity of 95 ± 3% for 14 days, perform the withstand voltage test listed in the left table for 5 minutes without drying.
Test Classification Symbol VAC (RMS)
INST 300
A 750
D 1,350
E 1,875
B 2,775
C 4,500
Corrosion (1) There is no corrosion to damage the connection or separation of connectors, or base metal exposure.
(2) Contact resistance measurement
After exposure to a salt spray at a temperature of 35°C and a concentration of 5% for 48 hours, wash with water, dry by leaving in an air circulation tank for 12 hours at 38 ±3°C, and then perform contact resistance and withstand voltage tests.
Contact size Test Current Voltage drop (or less)
#16 20A 35 mV
#12 35 30
#8 60 25
#4 110 20
#0 200 20
(3) Meets the following withstand voltage.
Test Classification Symbol VAC (RMS) Classification Symbol VAC (RMS)
INST 400 E 2,500
A 1,000 B 3,500
D 1,800 C 6,000

Environmental Characteristics

Contact Single Unit Insertion/Removal Force Contact size Average Maximum Minimum Measure insertion/removal force with a randomly chosen male and female. The average force must be the average value shown at left or less, 96% of all values must be the maximum value or less, and all values must be the minimum value or more.
#16 0.95 kg 1.36 kg 0.11 kg
#12 1.59 2.27 0.23
#8 3.18 4.54 0.34
#4 4.76 6.8 0.45
#0 6.35 9.07 0.91
Contact Holding Force Contact size Axial Load (kg) Contact size Axial Load (kg) Withstands axial load in both directions shown at left.
#16 4.5 #4 9.1
#12 6.8 #0 11.3
#8 9.1
Vibration (1) There is no current break for 10 μsec or more during the test.
(2) The withstand voltage test is passed after completion.
(3) There is no disconnection, crack or breakage in any part.
Couple a connector and a panel mount connected with wire in the normal way and perform a vibration test with MIL-STD-1344. Apply 100 mA current to the connector, check for current break in an appropriate way, and then perform a withstand voltage test and an external appearance test.
Shock (1) Meets the required contact resistance after completion.
(2) There is no crack, breakage, or looseness in any part.
Apply an acceleration of 50 G to the connector and the panel mount connected with wire at an angle of 90 degrees to each axial direction.
Life (1) Meets the contact resistance requirements.
(2) There is no electrical or mechanical abnormality.
Remove the coupling nut from the connector and perform insertion and removal 500 times at a speed not above 600 times per hour.

Contact arrangement table (in order of core number), a view from the coupling surface of the male (pin) connector.

Contact Arrangement Table 1 Contact Arrangement Table 2 Contact Arrangement Table 3

Arrangement No.

The shell size of the entire connector is at left. The arrangement number of its contacts is at right. Together they comprise the Arrangement No.
Arrangement No.

Configuration of Number of Cores

The size per contact is shown on the right. The number of contacts is shown on the left.
Configuration of Number of Cores
Determine the model according to the operating environment, such as voltage, current, number of cores, or size, when ordering parts.
Arrangement No. Contact
Shape
Contact Configuration Rated Current
(A)
(Note 1)
Insulation Resistance MΩ
(or more)
Rated Voltage (*2) (*3) Test Classification
(Note 4)
Shell
Size
Arrangement
Number
Total Number of Cores Configuration of Number of Cores Contact
Size
VDC or less
Characters are Contact No.
VAC (RMS) or less
Characters are Contact No.
( ) is Withstand Voltage / VAC (RMS)
10SL 3 P
Male
(Pin)
S
Female
(Socket)
3 3 #16 13 5,000 700 500 (2,000) A
4 2 2
12S 3 2 2
14S 1 3 3
2 4 4 250 200 (1,000) INST
5 5 5
6 6 6
7 3 3 700 500 (2,000) A
9 2 2
16S 1 7 7
5 3 3
8 5 5
16 10 3 3 #12 23
18 1 10 10 #16 13 BCFG-700, Other-250 BCFG-500 (2,000),Other-200 (1,000) A (BCFG) INST (Other)
4 4 4 1,250 900 (2,800) D
5 3 2 #12 23
1 #16 13
8 8 1 #12 23 700 500 (2,000) A
7 #16 13
10 4 4 #12 23
11 5 5
12 6 6 #16 13
19 10 10
20 5 5
21 3 3 #12 23
22 3 3 #16 13 1,250 900 (2,800) D
20 2 1 1 #0 150 ABHG-1250, CDEF-700 ABHG-900 (2,800), CDEF-500 (2,000) D (ABHG) A (CDEF)
4 4 4 #12 23 700 500 (2,000) A
7 8 8 #16 13
15 7 7 #12 23
16 9 2
7 #16 13
17 6 5 #12 23
1 #16 13
18 9 3 #12 23
6 #16 13
22 6 3 #8 46
3 #16 13
23 2 2 #8 46
27 14 14 #16 13
29 17 17
22 2 3 3 #8 46 1,250 900 (2,800) D
10 4 4 #16 13 1,750 1,250 (3,500) E
14 19 19 700 500 (2,000) A
19 14 14
22 4 4 #8 46
23 8 8 #12 23 H-1250, Other-700 H-900 (2,800), Other-500 (2,000) D (H) A (Other)
28 7 7 700 500 (2,000) A
24 2 7 7 1,250 900 (2,800) D
5 16 16 #16 13 700 500 (2,000) A
7 16 2 #12 23
14 #16 13
10 7 7 #8 46
11 9 3
6 #12 23
20 11 2 1,250 900 (2,800) D
9 #16 13
22 4 4 #8 46
28 24 24 #16 13 250 200 (1000) INST
28 6 P
Male
(Pin)
S
Female
(Socket)
3 3 #4 80 5,000 1,250 900 (2,800) D
10 7 2 G-1250, Other-700 G-900 (2,800),
2 #8 46 Other-500 (2,000)
D (G) A (Other)
2 #8 46
3 #12 13
11 22 4 700 500 (2,000) A
18 #16 13
12 26 26
15 35 35
16 20 20
20 14 10 #12 23
4 #16 13
21 37 37
32 1 5 2 #0 150 A-1750, Other-1250 A-1250 (3,500),
Other-900 (2,800)
(A) D (Other)
3 #12 23
2 5 3 #4 80 1,750 1,250 (3,500) E
2 #16 13
5 2 2 #0 150 1,250 900 (2,800) D
7 35 7 #12 23 ABhj-250, Other-700 ABhj-200 (1,000)
Other-500 (2,000)
INST (ABhj) A (Other)
28 #16 13
8 30 6 #12 23 700 500 (2,000) A
24 #16 13
9 14 2 #4 80 1,250 900 (2,800) D
12 #16 13
32A 10 54 54 700 500 (2,000) A
32 17 4 4 #4 80 1,250 900 (2,800) D
414 52 52 #16 13 700 500 (2,000) A
36 3 6 3 #0 150 1,250 900 (2,800) D
3 #12 23
4 3 3 #0 150 A-1250, BC-700 A-900 (2,800), BC-500 (2,000) D (A) A (BC)
5 4 4 700 500 (2,000) A
9 31 1 #4 80
2 #8 46
14 #12 23
14 #16 13
10 48 48
73 73 73
48 5 100 1 #8 46
9 #12 23
90 #16 13
*1: The rated current is the value of the contact as a single unit when each contact is embedded in a connector. Note that the rated current will not change depending on voltage.
*2: The rated voltage will change depending on contact arrangement rather than on the size of contacts or shells.
*3 The rated voltage may be different with each contact even in the same connector.
*4 Characteristics will change depending on test classification.

Key Position (Angle) Change for Prevention of Mistaken Insertion

Key Position (Angle) Change for Prevention of Mistaken Insertion

Straight Connector

Socket/Pin

Outline Drawing

Outline Drawing
Shell Size Coupling Screw
A Thread
Dimensions (mm)
Cable Entry
øB ±0.3
Effective Thread Length
J ±0.3
Overall Length
L or less
Outer Diameter
Q ±0.8
Conduit Screw
V Thread
Thread Length
W or more
10SL 5/8-24UNEF-2B 9.6 13.49 34.9 22.22 5/8-24UNEF-2A 9.53
12S 3/4-20UNEF-2B 9.6 13.5 42.8 25.4 5/8-24UNEF-2A 9.5
14S 7/8-20UNEF-2B 12.5 13.5 42.8 28.6 3/4-20UNEF-2A 9.5
16S 1-20UNEF-2B 15.6 13.5 42.8 31.8 7/8-20UNEF-2A 9.5
16 1-20UNEF-2B 15.6 18.3 52.4 31.8 7/8-20UNEF-2A 9.5
18 1-1/8-18UNEF-2B 20.2 18.3 52.4 34.1 1-20UNEF-2A 9.5
20 1-1/4-18UNEF-2B 23.0 18.3 55.6 37.3 1-3/16-18UNEF-2A 9.5
22 1-3/8-18UNEF-2B 23.2 18.3 55.6 40.5 1-3/16-18UNEF-2A 9.5
24 1-1/2-18UNEF-2B 29.5 18.3 58.7 43.7 1-7/16-18UNEF-2A 9.5
28 1-3/4-18UNS-2B 29.8 18.3 58.7 50.0 1-7/16-18UNEF-2A 9.5
32 2-18UNS-2B 37.5 18.3 61.9 56.4 1-3/4-18UNS-2A 11.1
36 2-1/4-16UN-2B 43.8 18.3 61.9 62.7 2-18UNS-2A 12.7
48 3-16UN-2B 69.1 18.3 65.1 81.8 3-16UN-2A 15.9

Angle Connector

Socket/Pin

Outline Drawing

Outline Drawing
Shell Size Coupling Screw
A Thread
Dimensions (mm)
Cable Entry
B ±0.3
Effective Thread Length
J ±0.3
Overall Length
L or less
M ±0.8 Outer Diameter
Q ±0.8
U ±0.8 Conduit Screw
V Thread
Thread Length
W or more
12S 3/4-20UNEF-2B 9.6 13.5 50.8 41.7 25.4 25.4 5/8-24UNEF-2A 9.5
14S 7/8-20UNEF-2B 12.5 13.5 54.0 43.3 28.6 27.0 3/4-20UNEF-2A 9.5
16S 1-20UNEF-2B 15.6 13.5 60.3 48.0 31.8 28.6 7/8-20UNEF-2A 9.5
16 1-20UNEF-2B 15.6 18.3 65.1 52.8 31.8 28.6 7/8-20UNEF-2A 9.5
18 1-1/8-18UNEF-2B 18.6 18.3 68.3 54.4 34.1 32.1 1-20UNEF-2A 9.5
20 1-1/4-18UNEF-2B 23.0 18.3 77.0 60.7 37.3 33.7 1-3/16-18UNEF-2A 9.5
22 1-3/8-18UNEF-2B 23.2 18.3 77.0 60.7 40.5 33.3 1-3/16-18UNEF-2A 9.5
24 1-1/2-18UNEF-2B 28.0 18.3 86.5 67.1 43.7 34.9 1-7/16-18UNEF-2A 9.5
28 1-3/4-18UNS-2B 28.2 18.3 86.5 67.1 50.0 38.5 1-7/16-18UNEF-2A 9.5
32,32A 2-18UNS-2B 35.9 18.3 95.2 71.8 56.4 46.4 1-3/4-18UNS-2A 11.1
36 2-1/4-16UN-2B 42.2 18.3 100.0 73.4 62.7 51.2 2-18UNS-2A 12.7
48 3-16UN-2B 65.9 18.3 125.4 86.5 81.8 59.1 3-16UN-2A 15.9

Relay Connector

Socket/Pin

Outline Drawing

Outline Drawing
Shell Size Coupling Screw
A Thread
Dimensions (mm)
Effective Thread
B or more
Overall Length
L or less
Length to Flange
M +0.4
-0
Outer Diameter
N or less
Conduit Screw
V Thread
Thread Length
W or more
12S 3/4-20UNEF-2A 9.5 42.88 14.3 26.97 5/8-24UNEF-2A 25.4
14S 7/8-20UNEF-2A 9.5 42.88 14.3 29.36 3/4-20UNEF-2A 27.0
16S 1-20UNEF-2A 9.5 42.88 14.3 31.75 7/8-20UNEF-2A 28.6
16 1-20UNEF-2A 15.9 52.37 19.0 31.75 7/8-20UNEF-2A 28.6
18 1-1/8-18UNEF-2A 15.9 52.37 19.0 34.14 1-20UNEF-2A 32.1
20 1-1/4-18UNEF-2A 15.9 55.58 19.0 37.31 1-3/16-18UNEF-2A 33.7
22 1-3/8-18UNEF-2A 15.9 55.58 19.0 40.49 1-3/16-18UNEF-2A 33.3
24 1-1/2-18UNEF-2A 15.9 58.72 19.0 43.66 1-7/16-18UNEF-2A 34.9
28 1-3/4-18UNS-2A 15.9 58.72 19.0 50.01 1-7/16-18UNEF-2A 38.5
32,32A 2-18UNS-2A 15.9 61.93 19.0 56.36 1-3/4UNS-2A 46.4
36 2-1/4-16UN-2A 15.9 61.93 19.0 62.71 2-18UNS-2A 51.2
48 3-16UN-2A 15.9 65.07 15.9 81.76 3-16UN-2A 59.1

Panel Mount

Socket/Pin

Outline Drawing

Outline Drawing
Shell Size A Thread Dimensions (mm)
B or more K or less L or less M +0.79
-0
øN +0
-4.78
R ±0.13 S ±0.79 øT +0.25
-0.13
10SL 5/8-24UNEF-2A 9.53 2.1 21.9 14.28 15.9 18.26 25.4 3.05
12S 3/4-20UNEF-2A 9.52 2.4 24.3 14.27 19.86 20.62 27.79 3.05
14S 7/8-20UNEF-2A 9.52 2.4 24.3 14.27 23.01 23.01 30.18 3.05
16S 1-20UNEF-2A 9.52 2.4 24.3 14.27 24.61 24.61 32.54 3.05
16 1-20UNEF-2A 15.88 2.4 29.1 19.05 24.61 24.61 32.54 3.05
18 1-1/8-18UNEF-2A 15.88 3.0 28.6 19.05 26.97 26.97 34.92 3.05
20 1-1/4-18UNEF-2A 15.88 3.0 29.4 19.05 29.36 29.36 38.10 3.05
22 1-3/8-18UNEF-2A 15.88 3.0 29.4 19.05 31.75 31.75 41.28 3.05
24 1-1/2-18UNEF-2A 15.88 3.0 33.4 20.62 34.92 34.92 44.45 3.73
28 1-3/4-18UNS-2A 15.88 3.0 33.4 20.62 39.67 39.67 50.80 3.73
32,32A 2-18UNS-2A 15.88 4.3 33.4 22.22 44.45 44.45 57.15 4.39
36 2-1/4-16UN-2A 15.88 4.3 33.4 22.22 49.23 49.23 63.50 4.39
48 3-16UN-2A 15.88 4.3 34.2 22.22 66.68 66.68 82.55 4.39

Dimensional Table/Dimensional Drawing

Current Capacity Applicable to Entire Connector

The rated current value per contact will vary depending on contact size, but the current capacity which can be applied to the entire connector will vary depending on the total number of cores. Since calculation differs for 14 cores or less and for 15 cores or more, they will be explained separately.
(1) For 14 Cores or Less
The current capacity applicable to the whole connector is calculated by multiplying the rated current value per contact when embedded by the number of cores, and then multiplying it with the reduction ratio in the following figure.
■ Current Reduction Ratio by Number of Cores Table
Total Number of Cores 1 2 3 4 5 6 7 8 9 10 11 12 13 14
Reduction Ratio (%) 1 0.943 0.886 0.829 0.771 0.714 0.657 0.6 0.543 0.486 0.429 0.371 0.314 0.257
Example 1: For connectors with the same contact size
Rated current per contact x number of cores x reduction ratio = entire connector allowable current
13 A x 2 cores x 0.943 = 24.518 A
(For Arrangement No. 12S-3)
Therefore, 24.518 A can be applied to the whole connector.
Example 2: For connectors with different contact sizes
(A contact rated current x number of A contact cores + B contact rated current x number of B contact cores) x reduction ratio (for total number of cores) = entire connector allowable current
(23 A x 2 cores + 13 A x 7 cores) x 0.543 = 74.391 A
(For Arrangement No. 20-16)
Therefore, 74.391 A can be applied to the whole connector.
(2) For 15 Cores or More
The current capacity applicable to the entire connector is calculated by multiplying the rated current value per contact by the number of cores and then multiplying it by 20%.
Example 1: For connectors with the same contact size
Contact rated current x number of cores x 20% = entire connector allowable current
13 A x 17 cores x 0.2 = 44.2 A
(For Arrangement No. 20-29)
Therefore, 44.2 A can be applied to the whole connector.
Example 2: For connectors with different contact sizes
(A contact rated current x number of A contact cores + B contact rated current x number of B contact cores) x 20% = entire connector allowable current
(23 A x 4 cores + 13 A x 18 cores) x 0.2 = 65.2 A
(For Arrangement No. 28-11)
Therefore, 65.2 A can be applied to the whole connector.

Soldering Method

Basic information

Type Other Color Black

This page is Rubber Bushing for MS Connector Cable Clamp MMS3420, part number MMS3420-20.
You can find the detail information about specifications and dimensions on part number MMS3420-20.

Variation of this product

Part Number
MMS3420-10
MMS3420-12
MMS3420-16
MMS3420-24
MMS3420-4
MMS3420-6
Part NumberStandard Unit PriceMinimum order quantityVolume DiscountStandard
Shipping Days
?
Inner Diameter (Cable Extraction Port Diameter)
(mm)

0.83 €

1 Available 5 Days 14.27

1.23 €

1 Available 5 Days 15.88

1.17 €

1 Available 5 Days 19.05

1.68 €

1 Available 5 Days 31.75

0.59 €

1 Available 5 Days 5.59

0.86 €

1 Available 5 Days 7.92

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