0330112002

APPLICATION SPECIFICATION MX150 MAT SEAL / UNSEALED BLADE CRIMP TERMINAL 1.0 SCOPE This specification details the crimping information and common practices of general crimps for the Molex MX150 Mat Seal / Unsealed Blade Terminal. Please refer to sales drawing SD-33000-001 for additional part information. The information in this document is for reference and benchmark purposes only. Customers are required to complete their own validation testing if tooling and/or wire is different than what is shown in this specification. All measurements are in millimeters and Newtons unless specified otherwise. Terminals shown in this document are generic representations. They are not intended to be an image of any terminal listed in the scope. 2.0 PRODUCT DESCRIPTION DEFINITION OF TERMS: 1 BEND UP/DOWN 3 ROLLING 2 TWISTING CONDUCTOR CRIMP INSULATION CRIMP FRONT BELL MOUTH 5 (not shown) 4 REAR BELL MOUTH Figure 1 REVISION: B2 ECR/ECN INFORMATION: EC No: UAU2014-1789 DATE: 2014 / 07 / 08 DOCUMENT NUMBER: AS-33000-001 SHEET No. MX150 MAT SEAL / UNSEALED BLADE APPLICATION SPECIFICATION 1 of 20 CREATED / REVISED BY: CHECKED BY: APPROVED BY: B.Jennings A.Dhir B.Moser TEMPLATE FILENAME: AS-34735-002.docm Rev.B APPLICATION SPECIFICATION DEFINITIONS OF TERMS (CONT.): 8 CONDUCTOR STRIP LENGTH L K K L CONDUCTOR BRUSH END OF INSULATION Figure 2 CONDUCTOR CRIMP WIDTH (CCW) 10 CUT-OFF TAB INSULATION CRIMP WIDTH (ICW) 12 CONDUCTOR CRIMP HEIGHT (CCH) 9 INSULATION CRIMP HEIGHT (ICH) 11 SECTION L-L SECTION K-K Figure 3 REVISION: B2 ECR/ECN INFORMATION: EC No: UAU2014-1789 DATE: 2014 / 07 / 08 DOCUMENT NUMBER: AS-33000-001 SHEET No. MX150 MAT SEAL / UNSEALED BLADE APPLICATION SPECIFICATION 2 of 20 CREATED / REVISED BY: CHECKED BY: APPROVED BY: B.Jennings A.Dhir B.Moser TEMPLATE FILENAME: AS-34735-002.docm Rev.B APPLICATION SPECIFICATION STRAIGHTNESS MEASUREMENTS The crimping process may result in some bending between the conductor crimp and the terminal box. This bending must not exceed the limits shown in Table 3. 4.00 (6.50) K (4.40) A J J1 B K J2 Figure 4 AB 1 (+) J 1 (-) AB CD C C 2 (+) C 2 (-) CD D C2 C1 Figure 5 BEND UP/DOWN 1 To measure bend up/down, establish datum J as shown in Figure 4 then measure the angle of the line defined by points A and B with respect to the datum. Positive angles are defined as bend up and negative angles are defined as bend down. TWISTING 2 To measure twisting, establish datum C as shown in Figure 5, then measure the angle of the line defined by points C and D with respect to the datum. ROLLING 3 To measure rolling, cross section the part at section K-K (see Figure 4), then clamp the part in a vice as shown in Figure 6. Using a shadowgraph, focus the graph to section H-H and establish line M-M as the top of the terminal box. With line M-M established, refocus the graph to section J-J. Measure the angle of the line defined by points E and F with respect to line M-M. H F J E M M J EF 3 (+) MM 3 (-) EF H Vice Figure 6 REVISION: B2 ECR/ECN INFORMATION: EC No: UAU2014-1789 DATE: 2014 / 07 / 08 DOCUMENT NUMBER: AS-33000-001 SHEET No. MX150 MAT SEAL / UNSEALED BLADE APPLICATION SPECIFICATION 3 of 20 CREATED / REVISED BY: CHECKED BY: APPROVED BY: B.Jennings A.Dhir B.Moser TEMPLATE FILENAME: AS-34735-002.docm Rev.B APPLICATION SPECIFICATION BELLMOUTH (FLARE) 4 5 The flare that is formed on the edge of the conductor crimp acts as a funnel for the wire strands. This funnel reduces the possibility that a sharp edge on the conductor crimp will cut or nick the wire strands. A rear bellmouth is required on the conductor crimp. A front bellmouth is optional. Caution: Excessively large bellmouths will reduce crimp area and reduce pull forces. See Table 3 for bellmouth specifications. 4 Figure 7 CUT- OFF TAB 6 This is the material that protrudes outside the insulation crimp after the terminal is separated from carrier strip. A cut-off tab that is too long may expose a terminal outside the housing and it may electrical spacing requirements. In most situations, a tool is setup to provide a cut-off tab that shall exceed the value indicated in Table 3. CAUTION: Burrs on the cut-off tab are not allowed as they have potential to cut mat seals. the fail not the 6b 6a Figure 8 CONDUCTOR BRUSH 7 The conductor brush is made up of the wire strands that extend past the conductor crimp on the contact side of the terminal. This helps ensure that mechanical compression occurs over the full length of the conductor crimp. The conductor brush should not extend into the contact area or above the conductor crimp/transition wall height (whichever is tallest), see Figure 9 and Table 3. CAUTION: Excessive conductor brush extended above the transition/crimp area can cause terminal retention issues inside plastic cavity and potentially could compromise/tear the glands of the mat seal. 7a 7b Figure 9 REVISION: B2 ECR/ECN INFORMATION: EC No: UAU2014-1789 DATE: 2014 / 07 / 08 DOCUMENT NUMBER: AS-33000-001 SHEET No. MX150 MAT SEAL / UNSEALED BLADE APPLICATION SPECIFICATION 4 of 20 CREATED / REVISED BY: CHECKED BY: APPROVED BY: B.Jennings A.Dhir B.Moser TEMPLATE FILENAME: AS-34735-002.docm Rev.B APPLICATION SPECIFICATION CONDUCTOR STRIP LENGTH 8 The strip length is determined by measuring the exposed conductor strands after the insulation is removed. The strip length determines the conductor brush length when the end-of-insulation position is centered in the transition area between conductor and insulation crimps. See Table 3 for the length requirement CAUTION: Care must be taken to ensure that all conductor strands are equal in length (no diagonally cut strands). No scratched or missing strands are permitted. The insulation cut must be uniform (no diagonally cut insulation and no extrusions of insulation). Care must also be taken not to leave indentations on the wire strands during the strip and cut operation as this can compromise the effectiveness of the mat seal and can result in leaks. CONDUCTOR CRIMP This is the metallurgical compression of a terminal around the wire's conductor. This connection creates a common electrical path with low resistance and high current carrying capabilities. The crimp seam shall not be open and all conductor strands must be contained within the conductor crimp. CONDUCTOR CRIMP HEIGHT 9 The conductor crimp height is measured from the top surface of the formed crimp to the bottom most radial surface. Do not include the extrusion points in this measurement. Measuring crimp height is a quick, nondestructive way to help ensure the correct metallurgical compression of a terminal around the wire's conductor and is an excellent attribute for process control. The crimp height specification is typically set as a balance between electrical and mechanical performance over the complete range of wire stranding and coatings, and terminal materials and plating. Although it is possible to optimize a crimp height to individual wire strands and terminal plating, one crimp height specification is normally created. See Table 2 for crimp height specifications. INSULATION CRIMP HEIGHT 11 Insulation crimp heights are specified in Table 2. MX150 Mat Seal / Unsealed Blade Terminals are designed to accommodate multiple wire sizes. Although within the terminal range, an insulation grip may not completely surround the wire, an acceptable insulation crimp will still be provided. The insulation crimp should be visually evaluated to confirm it provides adequate compression on the wire. It should also be evaluated by sectioning through the center of the crimped insulation grip. The grip should compress the insulation but not pierce it or otherwise damage the integrity of the insulation. The grip should not contact the conductors under any circumstance. Once the optimum setting for an insulation crimp height is determined, it is important to document it. The operator can then check it as part of the setup procedure. REVISION: B2 ECR/ECN INFORMATION: EC No: UAU2014-1789 DATE: 2014 / 07 / 08 DOCUMENT NUMBER: AS-33000-001 SHEET No. MX150 MAT SEAL / UNSEALED BLADE APPLICATION SPECIFICATION 5 of 20 CREATED / REVISED BY: CHECKED BY: APPROVED BY: B.Jennings A.Dhir B.Moser TEMPLATE FILENAME: AS-34735-002.docm Rev.B APPLICATION SPECIFICATION EXTRUSIONS (ANVIL FLASH / BURR) 13 These are the small flares that form on the bottom of the conductor crimp resulting from the clearance between the punch and anvil tooling. If the anvil is worn or the terminal is over-crimped, excessive extrusion can result. An uneven extrusion may also result if the punch and anvil are misaligned, if the feed is misadjusted or if there is insufficient or excessive terminal drag. CAUTION: Anvil Flash has the potential to damage mat seals and should be maintained within specifications (see Figure 10 and Table 3). Note: Anvil Flash (Burr) may not extend below the bottom of the crimp. 13 Anvil Flash Figure 10 INSULATION GRIP STEP 14 The insulation grip step is the designed offset between the conductor grip and the insulation grip which must be met by the crimp process (see Figure 11 and Table 3). To measure the grip step, establish datum J as shown in Figure 11, and then measure the grip step as the from the lowest point of the insulation grip, excluding the cutoff tab and wire insulation. 4.00 J 14 J1 J2 Figure 11 END-OF-INSULATION POSITION This is the location of the insulation in relation to the transition area between the conductor and insulation crimps. Equal amounts of the conductor strands and insulation needs to be visible in the transition area. The end-of insulation position ensures that the insulation is crimped along the full length of the insulation crimp and that no insulation gets crimped under the conductor crimp. The end-of-insulation position is set by the wire stop and strip length for bench applications. For automatic wire processing applications the endof-insulation position is set by the in/out press adjustment (see Figure 2). REVISION: B2 ECR/ECN INFORMATION: EC No: UAU2014-1789 DATE: 2014 / 07 / 08 DOCUMENT NUMBER: AS-33000-001 SHEET No. MX150 MAT SEAL / UNSEALED BLADE APPLICATION SPECIFICATION 6 of 20 CREATED / REVISED BY: CHECKED BY: APPROVED BY: B.Jennings A.Dhir B.Moser TEMPLATE FILENAME: AS-34735-002.docm Rev.B APPLICATION SPECIFICATION CRIMP BULGE 15 Caution needs to be taken with the crimp tooling to prevent a bulge in the transition area during crimping. The transition should generally flow smoothly from the conductor crimp to the terminal box. Any bulge must not exceed the width shown in Table 3. See Figure 12 for an example of crimp bulge. 15 Good Crimp (No Bulge) Bad Crimp (Bulge) Figure 12 BLADE DEFORMATION Care must be taken to ensure that the terminal box and blade section are not deformed during crimping and handling. Any deformation of the blade position relative to the terminal box must not exceed the tolerances specified in sales drawing SD-33000-001. REVISION: B2 ECR/ECN INFORMATION: EC No: UAU2014-1789 DATE: 2014 / 07 / 08 DOCUMENT NUMBER: AS-33000-001 SHEET No. MX150 MAT SEAL / UNSEALED BLADE APPLICATION SPECIFICATION 7 of 20 CREATED / REVISED BY: CHECKED BY: APPROVED BY: B.Jennings A.Dhir B.Moser TEMPLATE FILENAME: AS-34735-002.docm Rev.B APPLICATION SPECIFICATION 3.0 PRODUCT SPECIFICATIONS Table 1 Terminal Family Gender Sealing Plating Special Characteristics Insulation Diameter Range Grip Code Wire Size M3 0.35 – 0.50mm 22 22AWG 1.50 – 1.65 18 20 – 16AWG 2 0.75 – 1.00mm 1.60 – 2.54 14 14AWG 2 1.50 – 2.00mm 2.10 – 2.70 Standard Performance Tin Sn High Performance Tin MX150 REVISION: B2 Mat Seal / Unsealed Blade Ag High Performance Silver Au High Performance Gold Sn High Performance Tin Ag High Performance Silver Au High Performance Gold Sn High Performance Tin Ag High Performance Silver Au High Performance Gold Sn High Performance Tin Ag High Performance Silver Au High Performance Gold ECR/ECN INFORMATION: EC No: UAU2014-1789 DATE: 2014 / 07 / 08 DOCUMENT NUMBER: AS-33000-001 2 1.20 – 1.70 SHEET No. MX150 MAT SEAL / UNSEALED BLADE APPLICATION SPECIFICATION 8 of 20 CREATED / REVISED BY: CHECKED BY: APPROVED BY: B.Jennings A.Dhir B.Moser TEMPLATE FILENAME: AS-34735-002.docm Rev.B APPLICATION SPECIFICATION Table 2 Molex Product Attribute Grip Code Special Characteristics Sealing Standard Performance Tin High Performance Tin High Performance Silver High Performance Gold High Performance Tin High Performance Silver High Performance Gold M3 22 High Performance Tin High Performance Silver High Performance Gold 18 Mat Seal / Unsealed High Performance Tin High Performance Silver High Performance Gold 14 Conductor Barrel Validated Wire Wire Type Wire Size T3ZHID 0.35mm 2 2 Insulation Barrel CCH CCW ICH ICW ±0.05 ±0.10 ±0.10 ±0.10 1.05 ±0.03 T3ZHID 0.50mm M1L-123A4 (TXL) 22AWG 1.00 M1L-123A4 (TXL) 20AWG SAE J1128 (GXL) 20AWG M1L-123A4 (TXL) 18AWG MIN PULL OUT FORCE 1.75 50 1.60 1.10 2.00 1.90 1.60 75 1.85 1.90 50 1.15 1.90 2.10 75 1.15 2.00 2.30 75 1.25 2.00 2.30 90 2.15 SAE J1128 (GXL) 18AWG 1.25 2.30 2.60 90 M1-123A4 (TXL) 16AWG 1.35 2.20 2.60 120 M1L-126A1 0.75mm 2 1.25 1.95 2.30 90 M1L-126A1 1.00mm 2 1.30 2.00 2.30 120 M1L-123A4 (TXL) 14AWG 1.65 2.85 2.75 180 M1L-135A1 (UTX) 14AWG 1.65 2.80 2.80 180 2.65 2.80 150 2.85 2.75 180 M1L-126A1 JASO D611 (AVSS) 1.50mm 2 1.40 2.00mm 2 1.60 2.45 The above specifications are guidelines to an optimum crimp. Crimp heights/widths are applicable for punch/anvil tooling shown in Figures 15 - 19. Pull force should be measured with no influence from the insulation crimp. Customers are required to complete their own validation testing if tooling and/or wire is different than what is shown in this specification. REVISION: B2 ECR/ECN INFORMATION: EC No: UAU2014-1789 DATE: 2014 / 07 / 08 DOCUMENT NUMBER: AS-33000-001 SHEET No. MX150 MAT SEAL / UNSEALED BLADE APPLICATION SPECIFICATION 9 of 20 CREATED / REVISED BY: CHECKED BY: APPROVED BY: B.Jennings A.Dhir B.Moser TEMPLATE FILENAME: AS-34735-002.docm Rev.B APPLICATION SPECIFICATION Table 3 Specifications Balloon # Feature Requirement 1 Bend Up/Down TYP. ± 3° MAX Grip Code M3 ± 1.5° MAX 2 Twisting ± 3° MAX 3 Rolling ± 3° MAX 4 Rear Bell Mouth 0.30 – 0.70 5 Front Bell Mouth Not Applicable 6 Cut-Off Tab 7 a 0.50 MAX b No Burr a 0.40 MAX Conductor Brush b Not to extend above conductor crimp/transition height 8 Conductor Strip Length 4.70 – 5.60 for reference 9 Conductor Crimp Height See Table 2 10 Conductor Crimp Width See Table 2 11 Insulation Crimp Height See Table 2 12 Insulation Crimp Width See Table 2 13 Conductor Anvil Flash 0.1 MAX 14 Insulation Grip Step From J1-J2 (see Figure 11) 15 REVISION: B2 TYP. 0.30 ± 0.10 Grip Code M3 0.15 ± 0.30 Crimp Bulge 2.62 MAX ECR/ECN INFORMATION: EC No: UAU2014-1789 DATE: 2014 / 07 / 08 DOCUMENT NUMBER: AS-33000-001 SHEET No. MX150 MAT SEAL / UNSEALED BLADE APPLICATION SPECIFICATION 10 of 20 CREATED / REVISED BY: CHECKED BY: APPROVED BY: B.Jennings A.Dhir B.Moser TEMPLATE FILENAME: AS-34735-002.docm Rev.B APPLICATION SPECIFICATION 4.0 REFERENCE DOCUMENTS Reference documentation for general practices is located on the website per the below links: 1. Molex Quality Crimping Handbook http://www.molex.com/images/products/apptool/qual_crimp.pdf 2. Molex-Recognizing Good Crimps http://www.molex.com, search for Application Tooling 5.0 PROCEDURE 5.1 GENERAL MEASUREMENT AND EVALUATION REQUIREMENTS Crimp Height Measurement (Anvil Flash Evaluation) 1. Complete tool set-up procedure. 2. Crimp a minimum of 5 samples. 3. Place the flat blade of the crimp micrometer across the center of the dual radii of the conductor crimp. Do not take the measurement near the conductor bell mouth (see Figure 13). 4. Rotate the micrometer dial until the point contacts the bottom most radial surface. If using a caliper, be certain not to measure the conductor anvil flash (extrusions) of the crimp (see Figure 14). Figure 13 Figure 14 6.0 CRIMP TOOLING GEOMETRY The crimp tooling information shown below defines the tooling used by Molex to perform validation testing to establish recommended crimp height and widths. The user is responsible for validating crimp performance based on tooling, equipment and wire that is being used. REVISION: B2 ECR/ECN INFORMATION: EC No: UAU2014-1789 DATE: 2014 / 07 / 08 DOCUMENT NUMBER: AS-33000-001 SHEET No. MX150 MAT SEAL / UNSEALED BLADE APPLICATION SPECIFICATION 11 of 20 CREATED / REVISED BY: CHECKED BY: APPROVED BY: B.Jennings A.Dhir B.Moser TEMPLATE FILENAME: AS-34735-002.docm Rev.B APPLICATION SPECIFICATION Conductor Tool Geometry Variant A Punch Thickness: CR Figure 15 Conductor Tool Geometry - Variant A REVISION: B2 ECR/ECN INFORMATION: EC No: UAU2014-1789 DATE: 2014 / 07 / 08 DOCUMENT NUMBER: AS-33000-001 SHEET No. MX150 MAT SEAL / UNSEALED BLADE APPLICATION SPECIFICATION 12 of 20 CREATED / REVISED BY: CHECKED BY: APPROVED BY: B.Jennings A.Dhir B.Moser TEMPLATE FILENAME: AS-34735-002.docm Rev.B APPLICATION SPECIFICATION Conductor Tool Geometry Variant B Punch Thickness: CR Figure 16 Conductor Tool Geometry – Variant B REVISION: B2 ECR/ECN INFORMATION: EC No: UAU2014-1789 DATE: 2014 / 07 / 08 DOCUMENT NUMBER: AS-33000-001 SHEET No. MX150 MAT SEAL / UNSEALED BLADE APPLICATION SPECIFICATION 13 of 20 CREATED / REVISED BY: CHECKED BY: APPROVED BY: B.Jennings A.Dhir B.Moser TEMPLATE FILENAME: AS-34735-002.docm Rev.B APPLICATION SPECIFICATION Conductor Tool Geometry Variant C Punch Thickness: CR Figure 17 Conductor Tool Geometry - Variant C REVISION: B2 ECR/ECN INFORMATION: EC No: UAU2014-1789 DATE: 2014 / 07 / 08 DOCUMENT NUMBER: AS-33000-001 SHEET No. MX150 MAT SEAL / UNSEALED BLADE APPLICATION SPECIFICATION 14 of 20 CREATED / REVISED BY: CHECKED BY: APPROVED BY: B.Jennings A.Dhir B.Moser TEMPLATE FILENAME: AS-34735-002.docm Rev.B APPLICATION SPECIFICATION Insulation Tool Geometry Variant A Punch Thickness: IR Figure 18 Insulation Tool Geometry – Variant A REVISION: B2 ECR/ECN INFORMATION: EC No: UAU2014-1789 DATE: 2014 / 07 / 08 DOCUMENT NUMBER: AS-33000-001 SHEET No. MX150 MAT SEAL / UNSEALED BLADE APPLICATION SPECIFICATION 15 of 20 CREATED / REVISED BY: CHECKED BY: APPROVED BY: B.Jennings A.Dhir B.Moser TEMPLATE FILENAME: AS-34735-002.docm Rev.B APPLICATION SPECIFICATION Insulation Tool Geometry Variant B Figure 19 Insulation Tool Geometry – Variant B REVISION: B2 ECR/ECN INFORMATION: EC No: UAU2014-1789 DATE: 2014 / 07 / 08 DOCUMENT NUMBER: AS-33000-001 SHEET No. MX150 MAT SEAL / UNSEALED BLADE APPLICATION SPECIFICATION 16 of 20 CREATED / REVISED BY: CHECKED BY: APPROVED BY: B.Jennings A.Dhir B.Moser TEMPLATE FILENAME: AS-34735-002.docm Rev.B REVISION: B2 UAU2014-1789 See Figures 15 – 19 for geometry Punch Wire Sizes CHECKED BY: A.Dhir Anvil SAE [AWG] Metric [mm2] See Fig. # CA CB CC CD CE CF CG CH CJ CK CL CM CR CN CP M3 N/A 0.35-0.50 13 6.57 4.32 0.72 0.13 5° 0.42 11.97 5.10 3.10 5.13 - 6.59 4.45 1.61 1.44 22 22 N/A 12 7.33 - 0.65 - - 0.43 - - 4.55 - - 7.35 3.95 1.50 0.94 0.75 12 7.16 - 0.93 - - 0.59 - - 3.50 - - 7.19 3.95 2.06 1.31 N/A 12 7.16 - 0.93 - - 0.59 - - 3.50 - - 7.19 3.95 2.06 1.31 1.00 12 7.16 - 0.93 - - 0.59 - - 3.50 - - 7.19 3.95 2.06 1.31 18 (GXL) N/A 12 7.16 - 0.93 - - 0.59 - - 3.50 - - 7.19 3.95 2.06 1.31 16 1.50 14 6.52 4.32 0.99 0.13 4° 0.57 12.46 5.08 3.96 5.19 6.30 6.55 4.00 2.139 1.935 14 1.50-2.00 14 7.05 4.63 1.19 0.12 4° 0.60 12.82 5.08 4.27 5.9 6.54 7.06 6.55 2.438 6.110 20 20 (GXL) 18 14 18 Except GXL wire SHEET No. 17 of 20 APPROVED BY: B.Moser TEMPLATE FILENAME: AS-34735-002.docm Rev.B MX150 MAT SEAL / UNSEALED BLADE APPLICATION SPECIFICATION B.Jennings CREATED / REVISED BY: Grip Code APPLICATION SPECIFICATION EC No: 2014 / 07 / 08 ECR/ECN INFORMATION: DATE: DOCUMENT NUMBER: AS-33000-001 Table 4 – Conductor Tooling Dimensions REVISION: B2 UAU2014-1789 See Figures 15 – 19 for geometry CHECKED BY: A.Dhir Wire Sizes Punch Anvil SAE Metric See Fig. # IA IE IF IG IJ IM IR IS IN IP M3 N/A 0.35–0.50 15 6.31 3° 1.00 12.29 3.22 6.36 3.75 - 1.98 0.95 22 22 N/A 15 6.31 3° 0.93 12.29 4.05 6.36 2.70 - 1.84 0.95 20 0.75 15 6.36 3° 1.03 12.49 4.05 6.41 3.95 - 2.04 1.05 20 (GXL) N/A 15 6.45 3° 1.13 12.70 4.05 6.45 3.95 - 2.23 1.15 18 1.00 15 6.45 3° 1.13 12.70 4.05 6.45 3.95 - 2.23 1.15 18 (GXL) N/A 16 6.50 3° 1.28 12.96 4.05 6.57 3.80 6.57 2.525 1.300 16 1.50 16 6.50 3° 1.28 12.96 4.05 6.57 3.80 6.57 2.525 1.300 14 1.50–2.00 16 6.63 4° 1.30 13.12 3.97 6.72 3.80 6.25 2.722 1.400 18 14 Except GXL wire SHEET No. 18 of 20 APPROVED BY: B.Moser TEMPLATE FILENAME: AS-34735-002.docm Rev.B MX150 MAT SEAL / UNSEALED BLADE APPLICATION SPECIFICATION B.Jennings CREATED / REVISED BY: Grip Code APPLICATION SPECIFICATION EC No: 2014 / 07 / 08 ECR/ECN INFORMATION: DATE: DOCUMENT NUMBER: AS-33000-001 Table 5 – Insulator Tooling Dimensions APPLICATION SPECIFICATION 7.0 CRIMP STRAIGHTNESS A sample method for maintaining crimp straightness is shown in Figure 20 below. Insulation Punch Conductor Punch Adjustment for wire straightness (Up-Down) Adjustment for terminal straightness (Up-Down) Insulation Anvil Conductor Anvil Figure 20 REVISION: B2 ECR/ECN INFORMATION: EC No: UAU2014-1789 DATE: 2014 / 07 / 08 DOCUMENT NUMBER: AS-33000-001 SHEET No. MX150 MAT SEAL / UNSEALED BLADE APPLICATION SPECIFICATION 19 of 20 CREATED / REVISED BY: CHECKED BY: APPROVED BY: B.Jennings A.Dhir B.Moser TEMPLATE FILENAME: AS-34735-002.docm Rev.B APPLICATION SPECIFICATION 8.0 APPLICATION TOOLING Application Tooling for the MX150 Blade Terminals can be obtained directly from Molex. To find the proper and latest Molex Application Tooling 1. Go to http://www.molex.com 2. Enter the terminal / connector part number into the search box and select the “Go” button. a. Molex part numbers can also be found by searching on the product description. 3. Review the Application Tooling available on the right side of the product window. a. It may be necessary to scroll down on the right side of the terminal / connector product page to view all the tooling options. b. Hand tools and manual type tools require the loose terminal / connector part number to be used in the search. c. Applicator or semi-automatic type tools require the reeled terminal / connector part number to be used in the search. 4. Select the tool part number link 5. Review the tooling page for general tool information 6. Open the link for the Application Tooling Specification (ATS) (located on the left under Specifications & Other Documents) for additional details such as: a. Termination specifications: crimp height, pull force, wire strip length, insulation diameter, etc. b. Tool information: tool diagram, tool parts list, repair parts, perishable parts list. 7. Order Molex Application Tooling through your preferred distributor Notes: 1. Hand crimp tooling can only be used with certain wires and terminal part numbers. Check the Application Tooling Specification Sheet on the Molex website for details. 2. Application Tooling product numbers are subject to change without prior notice. Customers are advised to check the Molex website for the most up-to-date information. 3. Molex FineAdjust™ and MiniMac™ Application Tooling requires the use of left payoff (“D” Wind) parts. REVISION: B2 ECR/ECN INFORMATION: EC No: UAU2014-1789 DATE: 2014 / 07 / 08 DOCUMENT NUMBER: AS-33000-001 SHEET No. MX150 MAT SEAL / UNSEALED BLADE APPLICATION SPECIFICATION 20 of 20 CREATED / REVISED BY: CHECKED BY: APPROVED BY: B.Jennings A.Dhir B.Moser TEMPLATE FILENAME: AS-34735-002.docm Rev.B