UTL610DCG

48H r UTL Series CE VI AMPLE SER sS Dynamic IP68/69K • UV Resistant • UL/IEC Compliant Connection Technologies Overview UTL Series Mechanics 48H r CE VI AMPLE SER sS Contents Overview Technical information Interact safety standards .............................................. 06 Tooling ............................................................................... 28 UTL range overview ...................................................... 07 Crimptooling table ......................................................... 29 General technical characteristics .............................. 10 Extraction tools ............................................................... 29 Dimensions overmoulded harnesses ...................... 30 Contacts Handle & Interchangeable Heads ............................. 31 Mechanics Cable assembly ............................................................... 38 Specifications.................................................................... 14 Rated current & working voltage ............................... 41 Harnesses ......................................................................... 14 UV resistance .................................................................. 41 Dimensions ...................................................................... 15 UL94 & UL1977 ............................................................. 42 Accessories & tooling ................................................... 16 IEC 61984 with IP code explanation ....................... 45 Contacts ............................................................................ 17 What is NEMA rating ? ................................................. 47 Description ....................................................................... 20 Contact plating selector guide ................................... 21 Contact selector guide ................................................. 22 Packaging ......................................................................... 22 Appendices #16 coaxial contacts - cabling notices ................... 50 Glossary of terms ........................................................... 57 Part number Index.......................................................... 58 Appendices Contacts Technical information Assembly instruction ..................................................... 32 Crimp contacts ................................................................ 23 #16 coaxial contacts .................................................... 24 © 2012 – SOURIAU 3 UTL Series UTL Series Overview Presentation ...................................................................................................................................... 06 UTL range overview ....................................................................................................................... 07 General technical characteristics .............................................................................................. 10 © 2012 – SOURIAU 5 UTL Series Overview In today fast paced environment we are all buying electronic devices with confidence. To achieve a high such level of trust, the legislator had to put in place a wide variety of safety standards Being conscious of the number of standards and the difficulty to find an appropriate connector, Souriau decided to release an all-in-one solution. The UTL series is a unique connector which is compliant with ALL industry standards you can see nowadays. In addition to this it has been designed to be exclusively overmolded o prevent unwanted tamper. Souriau having the ability to supply cable assemblies it is therefore a gain of time with a one stop shopping supplier. There is no need anymore to look for a cable house able to terminate this fantastic product. Interact safety standards Market Applications Finger probe test Flame retardant Stress relief test UL 201 Finger probe test Ageing test UL 1995 Finger probe test Flame retardant Stress relief test UL 2238 Finger probe test IEC 60601 Cold test Bending (flexing) test Corrosion resistance Dynamic impact test IEC 61010 Finger probe test Hot wire test IEC 60598 & UL 1598 Corrosion resistance Stress relief test Impact test UL/IEC 60950 Finger probe test UScar2 UL 498: Attachment plugs and receptacles UL 201: Garage equipment UL 1995: Heating and cooling equipment IEC 60601: Medical equipment 6 Connector © 2012 – SOURIAU IEC 61984 - IEC 60309 UL 498 - UL 1977 Connector Market UL 1977: Component connectors for use in data, signal, control and power applications IEC 61984: Connectors IEC 60309: Plugs, socket-outlets and couplers for industrial purposes UL 2238: Cable assemblies and fittings for industrial control and signal distribution IEC 61010: Safety requirements for electrical equipment for measurement, control, and laboratory use UL/IEC 60950: Information technology equipment IEC 60598: Street lights UScar2: Performance specification for automotive electrical connector systems UTL Series Overview UTL range overview Overview The UTL Series is a plastic connector range designed to respect modern safety standards. The stainless steel latch coupling system makes it simple to use. With only 1 finger, connectors are mated with an audible and sensitive “click”. The key shape of the coupling system makes it blind mateable. In dark conditions the color and mechanical discriminations helps you to do it and avoid you to damage connectors. The philosophy of the UTL Series is built around three key elements: Dynamic IP68/69K UV Resistant The UTL Series is rated at IP68/69K… even in dynamic conditions. This means that it remain sealed even when used continuously underwater or cleaned using a high pressure hose and cable is moving. In most applications, our connectors are exposed to extreme climatic conditions; it was therefore key for us to select the materials best able to cope with the targeted environment. If this same level of performance is required even when connectors then we have special sealed contacts. This unique fetaure helps you to product your electronics from ingress of water. This is particulary insteresting when using with NEMA enclosure or outdoor luminaires. In most applications, our connectors are exposed to extreme climatic conditions; it was therefore key for us to select the materials best able to cope with the targeted environment. The UTL Series uses an outdoor rated material. Underwriters Laboratories classifies it "F1" per UL746C. UL/IEC Compliant The outmost priority for any electrical installation is to protect personnel from any shock hazard. In North America, Underwriters Laboratories insisted that connector manufacturers, depending of the application, respect their standards. The UTL Series had thus been qualified, certified by this organisation and compliant with the UL 1598, UL1977, UL498, UL60320. In Europe and in Asia, IEC standards are better known and trusted by end users. Like its American equivalent, the IEC refers to safety rules. The UTL Series was obviously designed to respect these rules and especially the IEC 60598, IEC60065, IEC60320, IEC61076-2-103. © 2012 – SOURIAU 7 UTL Series Overview UTL Series Plugs UTL Series Crimp contact Ground line Overmolding cable plug Sealed: IP68/69K UV resistant UL/IEC compliant Corrosion-proof Plastic housing x 3 x 1 x 1 x 3 Phase line Neutral line Overmolding cable plug Ground line Phase line Neutral line 8 © 2012 – SOURIAU UTL Series Overview range overview Receptacles Phase line Neutral line Overmolding inline receptacle Ground line 3 x 1 Overview x Accessories for jam nut receptacle x 3 Phase line Neutral line Phase line Neutral line x 1 Ground line x 1 x 3 x 1 x 3 Overmolding inline receptacle Accessories for jam nut receptacle Ground line © 2012 – SOURIAU 9 UTL Series Overview General technical Mechanical 1 • Durability: 500 matings & unmatings (with stamped and formed contact, S18 plating) 3 Environmental 3 • Operating temperature: from -40°C to +105°C • Flammability rating: UL 94 5VA 2 • Salt spray: ≥1000 hours • UV resistant: No mechanical degradation or important variation of colour of exposure in natural environment (F1material per the UL 746C) 4 • Sealing: - IP68/69K mated with standard contacts - IP68/69K even unmated with sealed contacts (see p23) • Fluid resistance: - Gasoil - Mineral oil - Acid bath - Basic bath 10 © 2012 – SOURIAU 4 UTL Series Overview Overview characteristics Electrical • UL: 600V 16A 277V 13A for CBC use • CN: 600V 13A 277V 10A for CBC use • IEC: 230/400V 16A 2 • Connector for Breaking circuit • First Mate Last Break contact mating on earth line Material • Body connector + Backshell: Thermoplastic • Insert: Connector: Thermoplastic 1 • Contacts: See page 22 • Nut: Metal • Halogen free • RoHS compliant & conform to the Chinese standard SJ/T1166-2006 (Chinese RoHS equivalent) Qualification • In accordance with: - IEC60065, IEC60598, UL1598, IEC60320, UL498, UL94 , UL746 , IEC61076-2-103 - UL 1977: UL file number E169916 - IEC 61984: Pending © 2012 – SOURIAU 11 UTL Series UTL Series Mechanics 103G1 Specifications ................................................................................................................................... 14 Dimensions ....................................................................................................................................... 15 Accessories & tooling .................................................................................................................... 16 Contacts ............................................................................................................................................. 17 © 2012 – SOURIAU 13 UTL Series 103G1 Layout OR OR WITH Specifications Part number Contact type Connector type Male insert Female insert Black color Grey color Black color grey color Square flange receptacle UTL0103G1P UTL0103G1P03 UTL0103G1S UTL0103G1S03 Plug UTL6103G1P UTL6103G1P03 UTL6103G1S UTL6103G1S03 Jam nut receptacle UTL7103G1P UTL7103G1P03 UTL7103G1S UTL7103G1S03 In line receptacle UTL1103G1P UTL1103G1P03 UTL1103G1S UTL1103G1S03 Crimp contacts supply separately see page 17 48h sample service Harnesses Connector type Overmolded harnesses, straight ending Male insert Female insert 3 ft 6 ft 12 ft 3 ft 6 ft 12 ft Plug 1 side UTLMKT63G1P3FT UTLMKT63G1P6FT UTLMKT63G1P12FT UTLMKT63G1S3FT UTLMKT63G1S6FT UTLMKT63G1S12FT Plug 2 sides - - - UTLMKT63G1SP3FT UTLMKT63G1SP6FT UTLMKT63G1SP12FT Plug + in line - - - UTLMKT613G1SP3FT UTLMKT613G1SP6FT UTLMKT613G1SP12FT Electrical characteristics UL 600V 16A 277V 10A for CBC use CN 600V 13A 277V 10A for CBC use UTL103G1 derating curves Current (A) 30 28 25 Test conditions 23 20 18 15 Contact used: 13 Machined contacts 10 Wires used: 8 1.31mm² 5 3 IEC 16A 230/400V 16A 14 © 2012 – SOURIAU 0 Current use 0 20 40 60 80 100 Ambient Operating Temperature (°C) Limited use 120 Not recommended use UTL Series 103G1 3 + ground 16A/600V Dimensions per UL1977 Square flange receptacle - UTL0 1"181 In line receptacle - UTL1 1"181 1"322 0"787 1"125 1"125 Ø0"125 Front view Front view Plug - UTL6 Jam nut receptacle - UTL7 0"444 1"181 0"551 0"787 1"125 0"933 0"610 Ø0"610 1"04 Mechanics Ø0"708 0"472 0"873 Front view Front view Panel cut out Square flange receptacle - UTL0 Jam nut receptacle - UTL7 0"647 Ø0"873 0"370 7 67 0" 1"051 Ø 0 72 0" Ø 0"858 Ø0"129 0"057 Note: all dimensions are in inch © 2012 – SOURIAU 15 UTL Series 103G1 Accessories Tooling Handle Dustcap for plug Dustcap for receptacle Part number Part number Part number UTL610DCG UTL10DCG Shandles 48h sample service Dustcap for male plug UTL0/1/6 Dustcap for female plug UTL0/1/6 Part number Part number UTL103G1PDCG68 UTL103G1SDCG68 Grommet Part number SWSFILLERPLUG Crimp tooling Contacts RM/RC 28M1K(1) RM/RC 24M9K(1) RM/RC 20M13K(1) RM/RC 20M12K(1) RM/RC 16M23K(1) RM/RC 14M30K(1) RM/RC 16M25K RM/RC 14M25K SM/SC 24ML1TK6(1) SM/SC 20ML1TK6(1) SM/SC 16ML1TK6(1) SM/SC 14ML1TK6(1) SM/SC 16ML11TK6(1) RMDXK10D28K RCDXK1D28K RM/RC DX60xxD28K RM/RC DXK10D28 + york090 RM/RC DX60xxD28 Contact size Standard contacts #16 Ø 1.6mm Coaxial contacts (1): example of plating, for other plating see page 21 16 © 2012 – SOURIAU Part number of head S16RCM20 S16RCM20 S16RCM20 S16RCM20 S16RCM16 S16RCM14 S16RCM1625 S16RCM1425 S16SCM20 S16SCM20 S16SCML1 S16SCML1 S16SCML11 M10S-1J M10S-1J M10S-1J M10S-1J M10S-1J UTL Series 103G1 3 + ground 16A/600V Contacts per UL1977 Contact type Machined Crimp Part number Male Female Max wire Ø Max insulator Ø 30-28 RM28M1K(1) RC28M1K(1) 0.55 1.1 26-24 AWG Machined with o-ring Stamped & formed reeled contacts RM24M9K RC24M9K 0.8 1.6 22-20 RM20M13K(1) RC20M13K(1) 1.18 1.8 22-20 RM20M12K(1) RC20M12K(1) 1.18 2.2 20-16 RM16M23K(1) RC16M23K(1) 1.8 3.2 2.28 3.2 1.8 3.2 2.28 3.2 (1) 16-14 RM14M30K RC14M30K 20-16 RM16M25K(3) RC16M25K(3) 16-14 RM14M25K RC14M25K (1) (3) (1) (3) 26-24 SM24M1TK6(1)(2) SC24M1TK6(1)(2) 0.89-1.28 - 22-20 SM20M1TK6 SC20M1TK6 1.17-2.08 - 18-16 SM16M1TK6(1)(2) SC16M1TK6(1)(2) 3.0 - SM16M11TK6 SC16M11TK6 2.0-3.0 - SM14M1TK6(1)(2) SC14M1TK6(1)(2) 3.2 - (1)(2) (1)(2) 18-16 14 Coaxial (1) (1)(2) (1)(2) Cable Multipiece - RMDXK10D28 RCDXK1D28 - - Cable Monocrimp - RMDX60xxD28 RCDX60xxD28 - - Twisted pair Multipiece - RMDXK10D28 + york090 RCDXK1D28 + york090 - - Twisted pair Monocrimp - RMDX60xxD28 RCDX60xxD28 - - (1): Example of plating, for other plating see page 21 (2): Loose piece contact available if putting L. Example: SM20ML1TK6 (3): Sealed contacts Mechanics #16 48h sample service Prototype kit - See instructions page 36 Connector type Plug Inline receptacle Jam nut receptacle Square flange receptacle Wire section Boot AWG 20 Part number Male insert Female insert 1 UTL6103G1P20AWG UTL6103G1S20AWG AWG16 1 UTL6103G1P16AWG UTL6103G1S16AWG AWG14 1 UTL6103G1P14AWG UTL6103G1S14AWG AWG 20 1 UTL1103G1P20AWG UTL1103G1S20AWG AWG16 1 UTL1103G1P16AWG UTL1103G1S16AWG AWG14 1 UTL1103G1P14AWG UTL1103G1S14AWG AWG 20 1 UTL7103G1P20AWG UTL7103G1S20AWG AWG16 1 UTL7103G1P16AWG UTL7103G1S16AWG AWG14 1 UTL7103G1P14AWG UTL7103G1S14AWG AWG 20 UTL0103G1P20AWG UTL0103G1S20AWG AWG16 UTL0103G1P16AWG UTL0103G1S16AWG AWG14 UTL0103G1P14AWG UTL0103G1S14AWG NB: Contacts supplied (S31 plating) Note: all dimensions are in inch © 2012 – SOURIAU 17 UTL Series UTL Series Contacts Description ........................................................................................................................................ 20 Contact plating selector guide .................................................................................................... 21 Contact selector guide .................................................................................................................. 22 Packaging .......................................................................................................................................... 22 Crimp contacts ................................................................................................................................. 23 #16 coaxial contacts ..................................................................................................................... 24 © 2012 – SOURIAU 19 UTL Series Contacts Contacts Description The UTL series is delivered without contact (crimp version). Contacts are not loaded, this series offers the unique possibility to use the same contact in any layout as long as it receives the same active part size. Thus it is possible to buy only one contact reference and equip all connectors even if housings are different. The main benefit is the standardisation which means reduction of inventory cost. Bearing in mind that any additional tool or complicated assembly process should be avoided, our contacts are based on a snap-in principle which avoid the use of an insertion tool. Crimp contacts are available in different versions: • machined • stamped & formed In addition, UTL series can obviously be equipped with solder contacts, PCB contacts. 20 © 2012 – SOURIAU • coaxial UTL Series Contacts Contact plating selector guide As soon as you know what contact size you need, you next have to decide on which type to use. Souriau proposes mainly two different types of electrical contacts: - Machined - Stamped & formed Machined contacts are generally chosen for low quantities purpose as well as a better solution for power applications. Stamped & formed contacts offer the ability to be crimped automatically which makes them more suitable for high volume production applications. Then comes the question: What plating should I choose ? Hereunder is a graph with criteria to guide you: NB: do not mix different plating (e.g. tin plated pin contact with gold plated socket contact). Number of cycles Vibration 250 100 0.4μm of gold min Contacts Gold flash Silver Tin Current / Voltage 5mA 5mV Contact size #20 #12 #16 #8 © 2012 – SOURIAU 21 UTL Series Contacts Contact selector guide Contact supply separately Electrical characteristics: contact resistance #16 Ø1.6mm Available platings (contact supply separately) Machined < 3mΩ K Min 0.4μ gold over 2μ Ni Stamped & formed < 6mΩ S31 Active part: Gold flash over Ni Crimp area: Nickel S18 Active part: 0.75μ gold min over 2μ Ni Crimp area: 1.3µ tin over Ni Other: Nickel TK6 2-5μ Sn pre-plated Packaging Conscious of the wide variety of applications, contact packaging has been considered for small series (bulk packaging) and high volume production (reeled contacts): Size contact #16 • 25 pieces bulk packing (stamped & formed contacts) 22 © 2012 – SOURIAU • 50 pieces bulk packing (machined contacts) • 1000 pieces bulk packing (machined contacts) • 3000 pieces reeled (stamped & formed contacts) • 5000 pieces reeled (machined contacts) UTL Series Contacts Crimp contacts Standard version #16 Ø1.6 mm Wire size AWG mm² Type Part number Male Female RC28M1RC24M9SC24M1-(1) SC24ML1-(2) RC20M13RC20M12SC20M1-(1) SC20ML1-(2) RC16M23- Machined 30-28 0.05-0.08 Machined 26-24 0.13-0.2 Stamped & Formed 26-24 0.13-0.25 Machined 22-20 0.32-0.52 Stamped & Formed 22-20 0.35-0.5 Machined 20-16 0.52-1.5 RM28M1RM24M9SM24M1-(1) SM24ML1-(2) RM20M13RM20M12SM20M1-(1) SM20ML1-(2) RM16M23- Machined with o-ring 20-16 0.52-1.5 RM16M25- RC16M25- Stamped & Formed 18-16 0.8-1.5 Stamped & Formed 18-16 0.8-1.5 Machined 16-14 1.5-2.5 SM16M1-(1) SM16ML1-(2) SM16M11-(1) SM16ML11-(2) RM14M30- SC16M1-(1) SC16ML1-(2) SC16M11-(1) SC16ML11-(2) RC14M30- Machined with o-ring 16-14 1.5-2.5 RM14M25- Stamped & Formed 14 2.0-2.5 SM14M1-(1) SM14ML1-(2) Max wire Ø Max insulator Ø Plating available 0.55 1.1 K 0.8 1.6 K 0.89-1.28 Insulation grip S31, S18, TK6 1.18 1.8 K 2.2 1.17-2.08 Insulation grip S31, S18, TK6 1.8 3.2 K 1.8 3.2 K 3.0 No insulation grip S31, S18, TK6 2.0-3.0 Insulation grip S31, S18, TK6 2.28 3.2 K RC14M25- 2.28 3.2 K SC14M1-(1) SC14ML1-(2) 3.2 No insulation grip S31, S18, TK6 (1) contact reeled (2) loose contact Exemple: RM16M23K - Size #16, Machined, AWG20 wire, gold plating. Contacts Contact size 48h sample service Reminder Plugs and receptacles have to be equiped with both contact genders. EX: UTL6103G1P = 3 x SM16M1531 + 1 x SC16M1531 © 2012 – SOURIAU 23 UTL Series Contacts #16 coaxial contacts Coaxial contact range We provide 2 types of coaxial contacts suitable for 50 or 75Ω, coaxial cable or twisted pair cable. Monocrimp coaxial contact • The monocrimp one-piece coaxial contacts offer high reliability plus the economic advantage of a 95% reduction in installation time over conventional assembly methods. • This economy is achieved by simultaneously crimping both the inner conductor and outer braid or drain wire. Multipiece crimp coaxial contact • The inner conductor and outer braid is crimped individually. • The thermoplastic insulating bushing in the outer body is designed to accept and permanently retain the inner contact. • An outer ferrule is used to connect the braid to the outer contact and provide cable support to ensure against bending and vibration. Suitable for Coaxial cable or Twisted cable • For jacket diameter from 0.64 to 1.45mm Inner conductor from AWG30 to AWG24 • For jacket diameter from 1.78 to 3.05mm Inner conductor up to 2.44mm diameter Contacts for coaxial cable summary Contact range Contact type Male contact Female contact Multipiece RMDXK10D28 RCDXK1D28 Monocrimp RMDX60xxD28 RCDX60xxD28 Contact part number with cable combination See page 50 Cabling notice See pages 54 & 55 See page 56 48h sample service Contacts for twisted pairs cable summary Contact range Male contact Female contact Contact part number with cable combination Multipiece RMDXK10D28 + YORK090 RCDXK1D28 + YORK090 See page 51 Monocrimp RMDX60xxD28 RCDX60xxD28 Contact type 24 © 2012 – SOURIAU Cabling notice See page 52 See page 53 UTL Series Contacts Contacts © 2012 – SOURIAU 25 UTL Series UTL Series Technical information Tooling ................................................................................................................................................ 28 Crimptooling table .......................................................................................................................... 29 Extraction tools ................................................................................................................................ 29 Dimensions overmoulded harnesses ....................................................................................... 30 Handle & interchangeable heads .............................................................................................. 31 Assembly intruction ....................................................................................................................... 32 Cable assembly ............................................................................................................................... 38 Rated current & working voltage................................................................................................. 41 UV resistance ................................................................................................................................... 41 UL94 + UL1977 ............................................................................................................................. 42 IEC 61984 & IP codes explained .............................................................................................. 45 What is NEMA rating ? .................................................................................................................. 47 © 2012 – SOURIAU 27 UTL Series Technical information Tooling Automatic crimping tools Mecal is leader in manufacturing tooling for crimping terminals over a stripped wire. Established in 1976, Mecal has become one of the world's leading companies dedicated to the design and manufacture of semi automatic production tools for strip fed, open barrel crimp terminals, serving the Automotive, Telecom and Datacomm industry. The extreme environment interconnect specialist “from deep sea to deep space”. Souriau designs manufactures and markets high performance interconnect solutions for severe environments dedicated to the aerospace, defence, light and heavy industry markets. Souriau has been working in partnership with Mecal for a good number of years. With sales offices located in all major industrial regions of the world, the combined strengths of both organisations has resulted in a truly global solution to all your production tooling needs. Mini Applicator Stripper Mecal sales network: www.mecal.net/eng/retevendita.php 28 © 2012 – SOURIAU Presses UTL Series Technical information Crimptooling table Standard contacts Contact size Part number Head Handles Extraction tools SHANDLES RX2025GE1 Handles Extraction tools SHANDLES RX2025GE1 RM/RC 28M1RM/RC 24M9RM/RC 20M13- S16RCM20 RM/RC 20M12- #16 0"062 RM/RC 16M23- S16RCM16 RM/RC 14M30SM/SC 24M1SM/SC 24ML1SM/SC 20M1SM/SC 20ML1SM/SC 16M1SM/SC 16ML1SM/SC 14M1SM/SC 14ML1SM/SC 16M11SM/SC 16ML11- S16RCM14 S16SCM20 S16SCML1 S16SCML11 Note: endurance of SHANDLES tool = 5 000 cycles. Specific contacts sealed Contact size Part number Head #16 0"062 RM/RC 16M25- S16RCM1625 RM/RC 14M25- S16RCM1425 Coaxial contacts Technical information See cabling notice chapter Appendices, pages 52 to 56. Extraction tools Contact size #16 Extractor RX2025GE1  RX2025GE1 Extraction tools instruction Extraction: Place the tool into the cavity from front face of the connector, push on the handle, then remove the contact. © 2012 – SOURIAU 29 UTL Series Technical information Dimensions mated connector Long version: with strain relief UTL0 + UTL6 UTL7 + UTL6 3"425 3"464 UTL1 + UTL6 4"803 Short version: without strain relief UTL0 + UTL6 UTL7 + UTL6 2"598 2"716 UTL1 + UTL6 3"976 Note: all dimensions are in inch 30 © 2012 – SOURIAU UTL Series Technical information Handle & Interchangeable Heads 1) Fully close then release the tool, keep it open. Open the 2 pins. 5) Place conductors, with no deteriorations, in the bucket contact. All strands to be located in the crimp bucket. 2) Choose the adapted head (sold separately), keep vertically and slide it into the handle till the mecanical end. 6) Position the contact in the bottom of the tools by checking out its orientation. 3) Close simultaneously the two pins to maintain the head. 7) To crimp contact assembly-cable, tighten sharply the clip to the end of the mechanism. 4) Strip the cable properly checking the size recommended in the catalog. 8) To control crimp quality, slighty pull cable with two fingers to control retention. © 2012 – SOURIAU Technical information User guide 31 UTL Series Technical information Assembly instruction Wire stripping crimp version Part number Male Machined contact #16 L RM28M1- / RM24M9RM20M13- / RM20M12- RC28M1- / RC24M9RC20M13- / RC20M12- 0"188 RM16M23- / RM14M30- RC16M23- / RC14M30- 0"279 RM16M25K / RM14M25K RC16M25K / RC14M25K 0"216 / 0"208 Stamped & formed #16 Without insulation support L With insulation support L Note: all dimensions are in inch 32 © 2012 – SOURIAU Female Stripping length L (inch) SM24M1- / SM24ML1SM20M1- / SM20ML1 SC24M1- / SC24ML1SC20M1- / SC20ML1- 0"157 SM16M11- / SM16ML11- SC16M11- / SC16ML11- 0"183 SM16M1- / SM16ML1- SC16M1- / SC16ML1- 0"249 SM14M1- / SM14ML1- SC16M11- / SC16ML11- 0"249 UTL Series Technical information Crimping One of the key factors which affects the performance of a connector, is the way contacts are terminated. Crimped connections are nowadays seen as the best solution to ensure quality throughout the lifetime of the product. Here are some reasons why we recommend this method of termination for UTS connectors: To ensure that the crimp tooling is performing according tooriginal specifications, it is important to carry out regular checks. A common way to check the performance of tooling is with a simple pull test, ideally using a dedicated electric pull tester. Minimum recommended full forces are indicated in the tables below: W Active contact part Contact type Die location on heads RM/RC 28M1K* 30/28 RM/RC 24M9K* 26/24 RM/RC 20M13K* 22/20 Machined contacts size 16 RM/RC 20M12K* RM/RC 16M23K* RM/RC 14M25K RM/RC 16M25K RM/RC 14M30K* S&F contacts size 16 20 18 16 16 14 18 16 16 14 SM/SC 24ML1TK6* 26/24 SM/SC 20ML1TK6* 22/20 SM/SC 16ML11TK6* 18 16 18 16 14 SM/SC 16ML1TK6* SM/SC14ML1TK6* Stamped & Formed contact W Wire section range AWG 30 AWG 28 AWG 26 AWG 24 AWG 22 AWG 20 AWG 22 AWG 20 AWG 20 AWG 18 AWG 16 AWG 16 AWG 14 AWG 18 AWG 16 AWG 16 AWG 14 AWG 26 AWG 24 AWG 22 AWG 20 AWG 18 AWG 16 AWG 18 AWG 16 AWG 14 Section (mm²) 0.05 min 0.08 max 0.12 min 0.25 max 0.32 min 0.50 max 0.32 min 0.50 max 0.50 max 0.82 max 1.50 max 1.50 min 2.50 min 0.82 max 1.50 max 1.50 min 2.50 min 0.12 min 0.25 max 0.32 min 0.50 max 0.82 min 1.50 max 0.82 min 1.50 max 2.50 max Tensile straight test (mini) 11 N 11 N 15 N 32 N 40 N 60 N 40 N 60 N 60 N 90 N 150 N 150 N 230 N 90 N 150 N 150 N 230 N 15 N 32 N 40 N 60 N 90 N 150 N 90 N 150 N 230 N Height (Mm) H (±0.075) Width (Mm) W (±0.075) 1.14 1.41 1.15 1.41 Head's P/N S16RCM20 1.26 1.76 1.66 1.80 1.96 2.10 2.30 1.80 1.96 2.10 2.30 2.18 2.28 2.43 2.68 2.78 2.28 2.43 2.68 2.78 0.84 1.50 1.02 1.54 1.32 1.36 1.49 1.7 1.79 2.09 2.10 2.02 2.05 2.58 S16RCM16 S16RCM1425 S16RCM1625 Technical information Machined contact H H Advantages (Extract from the IEC 60352-2): - Efficient processing of connections at each production level - Processing by fully-automatic or semi- automatic crimping machines, or with hand operated tools - No cold-soldered joints - No degradation of the spring characteristic of female contacts by the soldering temperature - No health risk from heavy metal and flux steam - Preservation of conductor flexibility behind the crimped connection - No burnt, discolored and overheated wire insulation - Good connections with reproducible electrical and mechanical performances - Easy production control. S16RCM14 S16SCM20 S16SCML11 S16SCML1 (1): example of plating, for other plating see page 21 Note: all dimensions are in mmm © 2012 – SOURIAU 33 UTL Series Technical information Assembly instruction UTL stripping dimensions • 1 - Female insulator: Strip external cable sheath, adjust ground cable length • 2 - Male insulator: Strip external cable sheath, adjust signal cable lengths • 3 - Crimp contacts • 4 - Place the lubrificant on the contact orings • 5 - Place all the contacts inside the corresponding cavities in the same time • 6 - Manually push each contact, or use specific tools, until audible click. Check each contact rétention, with a traction with two fingers Plug: UTL0103G1P - UTL6103G1P UTL7103G1P - UTL1103G1P Receptacle: UTL0103G1P - UTL6103G1S UTL7103G1S - UTL1103G1S Phase lines - male contacts Phase lines - male contacts 1"185 1"263 L* Ground line female contact L* 0"984 0"984 Ground line - female contact * see page 32 Ground contact must be different compared to the others Note: all dimensions are in inch UTL 0 assembly (mounting suggestion) • Strip wires, crimp contacts • Insert contacts into connector cavities (insert manually or use tool RTM205 crimp contacts) • Place receptacle in the panel cut-out (see dimension page 15) • Secure receptacle with M3 screws (not supplied), torque 0.7 N.m maxi Receptacle flange Panel Panel 34 © 2012 – SOURIAU UTL Series Technical information UTL 7 assembly (mounting suggestion) • Strip wires, crimp contacts • Insert contacts into connector cavities (insert manually or use tool RTM205 crimp contacts) • Seat o-ring, place receptacle in the panel cut-out (see dimension page 15) • Tighten jam nut • Jam nut torque: 2.5 Nm maxi, tool tightening: 7/8" O-ring Jam nut Panel thickness: 0"125 max Finally O-ring Note: all dimensions are in inch Technical information UTL 6 assembly • Slide nut on the cable • Strip external cable jacket • Strip wires, crimp contacts • Insert contacts into connector cavities (insert manually or use tool RTM205 crimp contacts) • Place nut © 2012 – SOURIAU 35 UTL Series Technical information Assembly instruction Prototype kit The boot is semi-flexible and heat-shrinkable with a moldable adhesive inner lining. • 1 - Place the heat shrink boot over the cable • 2 - Strip the cable jacket (see page 34) • 3 - Strip the individual wires (see page 32) • 4 - Crimp the contacts • 5 - Place the contacts in their cavities, checking the retention by slightly pulling the cable. • 6 - Clean the connector surface and the cable jacket with isopropyl alcohol • 7 - Position the boot over the rear threads • 8 - Heat the boot with a heat gun: minimum shrink temp: 80°C - minimum full recovery temp: 110°C make sure to apply the heat evenly around the boot. Starting by applying the heat from the rear of the connector. Do not apply excessive heat, as it will damage the connector and/or boot. • 9 - Let the boot cool down • 10 - Check for good retention and the boot glue grip. • 11 - It is advised to rub the jacket with sand paper and clean the jacket before shrinking the boot. 36 4 8 5 9 7 10 © 2012 – SOURIAU UTL Series Technical information SWS mounting Push the sealing plug into each connector cavity to seal until a mechanical stop. UTL0 0"275 mini 0"622 mini 0"346 mini Female Male 0"472 mini UTL7 0"700 mini 0"354 mini Female Male 0"551 mini Technical information 0"421 mini UTL6 0"291 mini 0"629 mini 0"354 mini Male Female 0"488 mini Note: all dimensions are in inch © 2012 – SOURIAU 37 UTL Series Technical information Cable assembly Souriau provides connectors in various applications for more than 90 years in the most extreme environment. Being conscious about the difficulty to find a quick and a reliable harness manufacturer, we decided years ago to start in house cable assembly production. It allows customers to reduce the number of suppliers, and to take advantage of the "best in class" quality of the Souriau group. Overmoulding is a process that further enhances the sealing properties of the UTL range, especially over many years of use. Overmoulding provides the opportunity to change the cable exit from straight through 90 degrees and avoid any stress on the cable terminated to the connector. Also, as the wires are encapsulated inside the moulding, a barrier is created which prevents from any liquid from entering the equipment through the connector if the cable jacket is breached. How to choose the outer jacket material Not supported by Souriau SILICON Chemical agression Wet Immerged Static installation OUTDOOR FEP Static installation (black outer jacket) PTFE PUR Static installation Static or dynamic installation INDOOR PVC Static installation 0°C 38 70°C © 2012 – SOURIAU Ambient temperature UV resistance Cleaner, chlorine TPE Static installation UTL Series Technical information Overmolding description O ring PVC or PUR overmolding Compound Discrete connector  Technical information If cable jacket is breached... ...water ingress unhampered, leading to damage. Overmoulded connector If cable jacket is breached...  ...prevents water ingress via capillary action. © 2012 – SOURIAU 39 UTL Series Technical information Cable information Construction - Polyurethane Jacket (Black) - 16 AWG conductors - Multi- conductor 4, 8, or 12 - 300V or 600V - Shielded or Unshielded - Flammability rating UL 1581 Sec.1080 (VW-1) Applications - Machining Centers (Oil Resistant) - Assembly Automation Equipment - Geophysical Equipment - Solar (UV Stable) - Outdoor Displays Standardization of American cable Nomenclature Key S: J: V: P: E: O: T: W: H: VW-1: FT2: Service Grade (also means extra hard service when not followed by J, V, or P) Hard Service Vacuum cleaner cord (also light duty cable) Parallel cord (also known as zip cord) – Always light duty Thermoplastic Elastomer (UL/NEC designation ONLY) Oil Resistant* Thermoplastic Outdoor-includes sunlight resistant jacket and wet location rated conductors (formerly "W-A") Heater cable Flame retardant Flame retardant Definitions of Cable Types SVT: SJT: SJTW: SJTO: SJTOW: ST: STW: STO: STOW: 40 Thermoplastic insulated vacuum cleaner cord, with or without 3rd conductor for grounding purposes; 300V. (PVC) Junior hard service, thermoplastic insulated conductors and jacket. 300V. (PVC) Same as SJT except outdoor rated. (PVC) Same as SJT but oil resistant outer jacket. (PVC) Same as SJTO except outdoor rated. (PVC) Hard service cord with all thermoplastic construction, 600V. (PVC) Same as ST except outdoor rated. (PVC) Same as ST but with oil resistant outer jacket. (PVC) Same as STO except outdoor rated. (PVC) © 2012 – SOURIAU UTL Series Technical information Rated current & working voltage Current carrying capacity The current carrying capacity of a connector is limited by the thermal properties of materials used in it's construction. The amount of current that can be handled depends on the size of cable used, the ambient temperature and the heat that is generated inside the connector. Part 3 of the IEC 60512 standard determines through a derating curve, the maximum current permissible, which varies from one layout to another (Fig.1 & Fig.2). Wire size plays an important role as well, since they help to dissipate heat and avoid overheating (Fig.1 & Fig.3). Please note that the curve should be adjusted when dealing with potential hot spots, which can occur as a result of unequal loading of current across a number of contacts. As a general rule, it is best to avoid locating power handling contacts in the middle of the connector; try to locate them towards the edge where heat can be dissipated more effectively. Eventually you should find a level which represents the permissible operating range: Fig.1: UTL – 1.5mm² wires 28 28 25 25 23 23 20 20 18 15 13 10 18 15 13 10 8 8 5 5 3 3 0 0 20 40 60 80 Fig.2: UTL – 2.5mm² wires 30 Current (A) Current (A) 30 100 0 120 0 20 Ambient Operating Temperature (°C) Current use Limited use 40 60 80 100 120 Ambient Operating Temperature (°C) Not recommended use Technical information The rated current is defined as uninterrupted continuous current that a connector can take when all contacts are energized simultaneously without exceeding the maximum limit of temperature. The earth contact is never loaded. UV resistance Solar radiation affects all materials, but plastics can be susceptible to extreme degradation over time. The choice of materials for the UTL series was therefore a critical consideration. Yearly mean of daily irradiation in UV (280-400 nm) on horizontal plane (J/cm²) (1990-2004) 90° 60° All over the world we are not exposed to the same amount of energy given by the sun. The chart shown here clearly illustrates this. 30° 0° - 30° - 60° - 90° - 180° - 150° - 120° - 90° - 60° - 30° 0° 30° 60° 90° 120° 150° 180° 190 170 © 2012 – SOURIAU 180 150 160 140 130 110 120 100 90 80 70 60 50 40 30 20 10 J/cm² 0 So Souriau has chosen a polymeric material able to withstand sunlight over a long period of time. For that we carefully followed the UL 746C and finally picked up a "f1" material. As a consequence our connector has been approved for outdoor use. 41 UTL Series Technical information Underwriter Laboratories There are two main standards for industrial connectors: UL94 & UL1977 UL 94: Tests for Flammability of Plastic Materials for Parts in Devices and Appliances This standard is dedicated to plastics flammability. It characterises how the material burns in various orientation and thicknesses. Whereas most of our competitor are using a 50W test to classified the ability of their solution to withstand fire, Souriau decided to increase this to a 500W test. New regulations tend to emphasize the importance of burning behavior making the 50W test less and less relevant. The UTL series has been rated at 5VA. Procedure: Bar specimens are to be 4"921 long by 0"511 wide, and provided in the minimum thickness. Plaque specimens are to be 5"905 by 5"905 and provided in the minimum thickness. Thicker specimens may also be provided and shall be tested if the results obtained on the minimum thickness indicate inconsistent test results. The maximum thickness is not to exceed 0"511. Conditions 94-5VA Afterflame time plus afterglow time after fifth flame application for each individual bar specimen ≤60s Cotton indicator ignited by flaming particles or drops from any bar specimen No Burn-through (hole) of any plaque specimen No 0"511 Material O ve 5VA Vertical burning: • The specimen is clamped from the upper 0"236 of the specimen, with the longitudinal axis vertical, so that the lower end of the specimen is 11"810 above a horizontal layer of not more than 0.08 g of absorbent cotton thinned to approximately 1"968 x 1"968 and a maximum thickness of 0"236. • The 500W flame is then to be applied to one of the lower corners of the specimen so that the tip of the blue cone is within 0 to 0"118 of the specimen edge. • Apply the flame for 5 ±0.5 seconds and then remove for 5 ±0.5 seconds. Repeat the operation until the specimen has been subjected to five applications of the test flame. 42 © 2012 – SOURIAU ll 4"921 he ig ht of fla m e In ne r co b ne lue 4"330 11"810 Cotton 5"905 Material Center 4"330 0"511 5VA Horizontal burning: • Support the plaque specimen by a clamp in the horizontal plane. • The flame is then to be applied to the centre of the bottom surface of the plaque so that the tip of the blue cone is within 0 to 0"118 of the plaque surface. • Apply the flame for 5 ±0.5 seconds and then remove for 5 ±0.5 seconds. Repeat the operation until the plaque specimen has been subjected to five applications of the test flame. • After the fifth application of the test flame, and after all flaming or glowing combustion has ceased, it is to be observed whether or not the flame penetrated (burned through) the plaque material. In addition, no opening greater than 0"118 shall appear after the test. ra UTL Series Technical information Underwriter Laboratories UL1977 There are several standards which deal with plug and receptacle. Each of them is only for a small area of applications. It could be telecommunication, Etc. The UL 1977 covers single and multipole connectors intended for factory assembly. Requirements apply to devices in taking into account intensity and voltage. There a categories as follows: 30 V (42 V peak) 0 600 V 0 Type 0 Type 1A 8.3 A Type 2 Tybe 1B 31 A Type 3 200 A Type 4 1000 A According to above table, the level of performance that has to be reached could be different. Most of them are explained in the following page. Insulating materials: Material uses for electrical insulation, as a minimum, have to comply with the characteristics shown below: Type Flame rating Relative thermal index (RTI) Electrical/mechanical w/o impact */** 0 - 50/50 1A HB 50/50 1B HB 50/50 2 HB 50/50 3 HB 50/50 4 HB 50/50 Technical information • Minimum ratings for polymeric materials * The RTI of the material shall not be lower than the temperature measured during the Temperature Test. ** For a thickness less than that for which a value has been established, the RTI of the minimum thickness with an established value shall be used. Assembly: Connector has to be keyed to prevent any mismating that can damage the machine or hurt the user. In the same way, plugs and sockets have to be equipped to protect persons against contact with live parts. Finally the identified grounding contact shall be located so that the corresponding electrical continuity has to be completed before any other contact. © 2012 – SOURIAU 43 UTL Series Technical information Underwriter Laboratories UL1977 Spacing: For a 250V max connector, distance through air or over material shall be 0"047 whereas from 250V to 600V connector the spacing is 3.2 minimum. These distances have to be taken between uninsulated live parts as shown in the matrix below: • Applicability of spacing requirements Type Uninsulated live part - uninsulated live part of opposite polarity Uninsulated live part - uninsulated grounded metal part Uninsulated live part - exposed dead metal part 0 No No No 1A Yes Yes Yes 1B Yes Yes No 2 Yes Yes Yes 3 Yes Yes Yes 4 Yes Yes Yes An alternative way to determine voltage rating is with the Dielectric-Withstand test. If during one minute there is no arc-over or breakdown the rated voltage is given as given below: a) 500 volts for a type 1B device b) 1000 volts plus twice rated voltage for types 1A, 2, 3 and 4 devices. Marking: A device shall be legibly marked with the manufacturer's trade name, trade mark, or other descriptive marking by which the organisation responsible for the product may be identified. (Exception: If the device is too small, or where the legibility would be difficult to attain, the manufacturer’s name, trademark, or other descriptive marking may appear on the smallest unit container or carton) The following shall be marked on the device or on the smallest unit container or carton or on a stuffer sheet in the smallest unit container or carton: a) The catalogue number or an equivalent designation b) The electrical rating in both volts and amperes, if assigned c) Whether ac or dc, if restricted d) Flammability class, if identified Example - Marking for the arrangement 10-3: 44 © 2012 – SOURIAU 10A 500V UL94 V-0 UTL Series Technical information IEC 61984 The norm is dedicated to connectors with rated voltage above 50V and up to 1000V and rated currents up to 125A per contact. But depending of your application connectors should be compliant with another standard. This has to be double checked with the customer. There are lot of constructional requirements and performances specified in that standard. Most of them are illustrated in greater details hereafter. Provisions for earthing: The UTO connector is intended to be used on Class II systems. Even if the purpose of our connector is not to interrupt current, we often see a need to add a protective earth contact. Then this one shall be a “First mate, last break” style. Critically, among all of the normal assumptions we make in designing a connector, this contact has to be considered as a live part and must be protected against electric shock by double or reinforced insulation. IP Code: First digit (foreign bodies protection) IP is a coding system defined by the IEC 60529 to indicate the degrees of protection provided by an enclosure. The aim of this is to give information regarding the accessibility of live parts against ingress of water and other foreign bodies. 1 2 3 4 5 6 Degree of protection No protection against accidental contact. No protection against solid foreign bodies. Protection against contacts with any large area by hand and against large solid foreign bodies with a diameter bigger than 1"968. Protection against contacts with the fingers. Protection against solid foreign bodies with a diameter bigger than 0"472. Protection against tools, wires or similar objects with a diameter bigger than 0"098. Protection against small solid bodies with a diameter bigger than 0"098. As 3 however diameter is bigger than 0"039. Full protection against contacts. Protection against interior injurious dust deposits. Total protection against contacts. Protection against penetration of dust. UTO offers high sealing performance IP68 / 69K… Even in dynamic situations. IP 6 8 Second digit (water protection) 2nd digit Degree of protection 0 No protection against water. 1 Drip-proof. Protection against vertical water drips. 2 Drip-proof. Protection against water drips up to a 15° angle. 3 Spray-proof. Protection against diagonal water drips up to a 60° angle. 4 Splash-proof. Protection against splashed water from all directions. Hose-proof. Protection against water (out of a nozzle) from all directions. Protection against temporary flooding. 5 6 7 8 Technical information 1st digit 0 Code letters (international Protection) Protection against temporary immersions. Protection against water pressure. Pressure to be specified by supplier. In addition to the IEC 60529 we conjointly use the DIN 40050 part 9 which are dedicated to road vehicles. The main differences are: • First digit: 5 replaced by 5K, 6 by 6K. In the DIN the tested equipment is not depressurized as it is in the IEC. • Second digit: 5K and 6K has been added and are equivalent respectively to 5 and 6 but with higher pressure. 9K which represents the High pressure cleaning. 9K High pressure hose-proof. Protection against high pressure water (out of a nozzle) from all directions. IEC 61984 ed.2.0 “Copyright © 2008 IEC Geneva, Switzerland.www.iec.ch" IEC 60664-1 ed.2.0 “Copyright © 2007 IEC Geneva, Switzerland.www.iec.ch” © 2012 – SOURIAU 45 UTL Series Technical information IEC 61984 Overvoltage UTO connectors are qualified to be used on systems rated at Overvoltage category III Per the IEC 60664-1 (formely VDE 0110) each category is linked to the end application and where the device will be implemented: • Category IV (primary overcurrent protection equipment): Origin of the installation • Category III (Any fixed installation with a permanent connection) Fixed installation and equipment and for cases where the reliability and the availability is subject to special requirements • Category II (Domestic applicances): Energy consuming equipment to be supplied from the fixed installation • Category I (Protected electronic circuit): For connection to circuit in which measures are taken to limit transient overvoltage. Pollution degree Per the IEC 60664-1 (formerly VDE 0110) the environment affects the performance of the insulation. Particles can build a bridge between two metal parts. As a rule dust mixed with water can be conductive and more generally speaking metal dust is conductive. Finally, the standard defines 4 levels of pollution: • Degree 1 (Air conditioned dry room): No pollution or only dry, non conductive pollution occurs. The pollution has no influence. • Degree 2 (Personal computer in a residential area): Only non conductive pollution occurs except that occasionally a temporary conductivity caused by condensation is to be expected. • Degree 3 (Machine tools): Conductive pollution occurs or dry non-conductive pollution occurs which becomes conductive due to condensation which is to be expected. • Degree 4 (Equipments on roof, locomotives): Continuous conductivity occurs due to conductive dust, rain or other wet conditions. Finally, the harsher the environment is, the longer clearance and creepage distances should be. Nonetheless, according the IEC 61984, enclosure rated at IP54 or higher can be dimensioned for a lower pollution degree. This applies to mated connectors disengaged for test and maintenance. Marking The marking should give enough details to the user to know what the main characteristics are and without going deep in technical documentation. Below examples identify the suitability of the connector: • Example 1: Marking of a connector with rated current 16A, rated voltage 400V, rated impulse voltage 6kV and pollution degree 3, 2 and 1 for use in any system, preferably unearthed or delta-earthed systems: 6A 400V 400V 6kV 6kV 33 116A • Example 2: Marking of a connector with rated current 16A, rated insulation voltages line-to-earth 250V, line-to-line 400V, rated impulse voltage 4kV and pollution degree 3, 2 and 1 for use in earthed systems: 16A 6A 250V 250V 400V 400V 4kV 4kV 3 3 1 46 © 2012 – SOURIAU UTL Series Technical information What is NEMA rating ? • NEMA ratings vs IP ratings Whereas IP ratings only consider protection against ingress of foreign bodies - first digit - and ingress of water (second digit), NEMA ratings consider these but also verify protection from external ice, corrosive materials, oil immersion, etc. The correlation between NEMA & IP being limited only to dust and water, we can state that a NEMA type is equivalent to an IP rating but it is not possible to say the contrary. Below a list of some NEMA standards: Enclosure rating IP20 Type 1 • IP22 IP55 IP64 IP65 IP66 IP67 • Type 3 • Type 3R • Type 3S Type 4 • Type 4X • • Type 6 • Type 12 • Type 13 • indicates compliance 6 IP67 Enclosures constructed for either indoor or outdoor use to provide a degree of protection to personnel against incidental contact with the enclosed equipment, falling dirt, hosedirected water, the entry of water during occasional temporary submersion at a limited depth and damage from external ice formation. 6P IP67 Enclosures constructed for either indoor or outdoor use to provide a degree of protection to personnel against incidental contact with the enclosed equipment, falling dirt, hose-directed water, the entry of water during prolonged submersion at a limited depth and damage from external ice formation. © 2012 – SOURIAU Technical information Type 6 rating can be either Type 6 or Type 6P - please see below: 47 UTL Series UTL Series Appendices #16 coaxial contacts - cabling notices .................................................................................... 50 Glossary of terms ............................................................................................................................ 57 Part number Index .......................................................................................................................... 58 © 2012 – SOURIAU 49 UTL Series Appendices #16 coaxial contacts Coaxial cable - Contact monocrimp and multipiece Cable type RG161/U Ø over jacket Impe- Contact dance type 75 Ø over dielectric inch mm inch mm 0.09 2.29 0.057 1.45 Inner cond size Ext. Ø mm Ø outer braid inch 75 0.105 2.67 0.063 1.6 0.3 0.084 2.13 max RG179B/U 75 0.105 2.67 0.063 1.6 0.3 0.084 2.13 max RG187/U 75 0.11 2.79 max 0.06 1.52 0.3 RG188/U 50 RG174/U 50 AMPHENOL 21-598 50 Female contact kit for coaxial cable RMDXK10D28 RCDXK1D28 RMDX6036D28 RCDX6036D28 mm RG179A/U Multi piece Male contact kit for coaxial cable 0.11 2.79 max 0.06 1.52 0.51 0.078 1.98 max 0.11 2.92 0.06 1.52 0.48 0.088 2.24 max 0.105 2.67 0.06 1.52 0.48 RG196/U 50 0.08 2.03 max 0.034 0.086 0.3 RG178A/U 50 0.075 1.91 0.034 0.86 0.3 0.054 1.37 max RG/188A/U 50 0.110 2.79 0.06 1.52 0.51 0.078 1.98 max KX21TVT (europe) RG178 B/U 50 0.075 1.91 0.034 0.86 0.3 0.054 1.37 max 0.075 1.91 0.034 0.86 0.3 0.054 1.37 max RMDX6050D28 RCDX6016D28 0.115 2.92 0.06 1.52 0.48 0.088 2.24 max RMDX6032D28 RCDX6032D28 RG178 / BU 50 RG174/U 50 Mono crimp RMDX6034D28 RCDX6034D28 0.11 2.79 0.06 1.52 0.51 0.078 1.98 max RMDX6036D28 RCDX6036D28 0.107 2.72 0.6 1.52 0.51 0.078 2.05 max RMDX6036D28 RCDX6036D28 50 0.12 3.05 0.083 2.11 0.64 0.097 2.46 50 0.083 2.11 0.05 1.27 0.48 0.067 1.7 0.1 2.54 0.058 1.47 0.3 - 0.103 2.62 0.06 1.52 0.51 0.078 PRD PN 247AS-C1251 - 0.092 2.34 0.05 1.27 0.64 0.067 JUDD C15013010902 - 0.087 2.13 0.05 1.27 0.48 0.066 1.67 RMDX6036D28 RCDX6036D28 CDC PIN22939200 - 0.09 2.29 0.048 1.22 0.3 0.064 1.63 RMDX6046D28 RCDX6016D28 RG188A/U 50 RG316/U 50 raychem 5024A3111 raychem 5026e1614 surprenant pn 8134 - PRD PN 247ASC1123-001 Multi piece RMDX6052D28 RCDX6052D28 RMDX6036D28 RCDX6036D28 RMDXK10D28 RCDXK1D28 1.98 RMDX6018D28 RCDX6018D28 1.7 RMDX6018D28 RCDX6018D28 CDC PIN22939200 - 0.09 2.29 0.048 1.22 0.3 0.064 1.63 RMDX6050D28 RCDX6016D28 CDC PIN245670000 - 0.104 2.64 0.067 1.7 0.3 0.083 2.11 RMDX6050D28 RCDX6016D28 ampex - TI PN 920580 - Honeywell PN 58000062 Mono crimp 0.114 2.9 0.075 1.91 0.38 0.09 1.29 RMDX6032D28 RCDX6032D28 0.7 1.78 0.038 0.96 0.48 0.054 1.37 RMDX6024D28 RCDX6024D28 1.96 0.41 solid 0.096 2.44 RMDX6026D28 RCDX6026D28 - 0.12 3.05 0.077 - - 0.104 2.64 0.067 1.7 0.3 2.11 RMDX6050D28 - - - 0.09 2.29 0.048 1.22 0.3 1.63 RMDX6050D28 - - - 0.114 2.9 0.075 1.91 0.38 1.29 RMDX6032D28 RCDX6032D28 - - 0.07 1.78 0.038 0.96 0.48 1.37 RMDX6024D28 RCDX6024D28 - - 0.12 3.05 0.077 1.96 0.41 2.44 RMDX6026D28 RCDX6026D28 48h sample service 50 © 2012 – SOURIAU UTL Series Appendices Twisted cable - Contact monocrimp and multipiece Cable type Inner Contact AWG type cond Ø over jacket (single wire) Ø outer braid Inner cond size inch mm Stranded definition Ext. Ø mm inch mm Male contact kit for coaxial cable Female contact kit for coaxial cable 24 0.049 1.24 max 7/.008 - - RMDXK10D28 RCDXK1D28 2 #24 solid mil-w-76 type LW 24 0.047 1.12 max 1/.0201 - - RMDXK10D28 RCDXK1D28 26 0.043 1.09 max 7/.0063 - - RMDXK10D28 RCDXK1D28 28 0.028 0.71 max - - RMDXK10D28 RCDXK1D28 TWISTED PAIR 1/.201 SOLID MIL w 76 TYPE lw or MIL W 16878 26 0.044 1.12 max 1/.0201 0.511 - - RMDXK10D28 RCDXK1D28 twisted pair solid mil w 81822/3 28 0.028 0.71 max 1/.0126 0.32 - - RMDXK10D28 RCDXK1D28 #28 7/.0036 per Hitachi spec ec-711 (13-2820) - 0.046 1.17 7/.0036 - - - RMDX6031D28 + RCDX6031D28 YORX090 + YORX090 20218201 - 0.028 0.71 - - - - RMDX6031D28 + RCDX6031D28 YORX090 + YORX090 #30 solid - 0.025 0.64 - - - - RMDX6015D28 + RCDX6015D28 YORX090 + YORX090 #26 7/.0063 26 0.028 0.71 7/.063 0.16 - - RMDX6031D28 + RCDX6031D28 YORX090 + YORX090 #26 19/.004 26 0.049 1.24 19/.004 - - - RMDX6019D28 + RCDX6019D28 YORX090 + YORX090 24 0.049 1.24 7/.008 - - - RMDX6019D28 + RCDX6019D28 YORX090 + YORX090 #24 19/.005 24 0.057 1.45 19/.005 - - - RMDX6019D28 + RCDX6019D28 YORX090 + YORX090 - 26 - 1.25 - - - 19x0.1 RMDX6019D28 + RCDX6019D28 YORX090 + YORX090 - 24 - 1.25 - - - 7x0.2 RMDX6019D28 + RCDX6019D28 YORX090 + YORX090 - 24 - 1.45 - - - 19x0.13 RMDX6019D28 + RCDX6019D28 YORX090 + YORX090 - 26 - 0.7 - - - 7x0.16 RMDX6031D28 + RCDX6031D28 YORX090 + YORX090 2 #26 stranded mil w 76 type LW or mil w16878 type b&e 2 #28 solid mil-w-81822/3 #24 7/.008 Multi piece Mono crimp 0.16 Appendices 2#24 stranded mil w 16878 type B © 2012 – SOURIAU 51 UTL Series Appendices #16 coaxial contacts Twisted pair cable multipiece contact cabling Cable reference Contact type Male contact Female contact Crimp tool Die set Stop bushing - - Cable strip length A B C Inner conductor crimp g dim t dim Braid crimp g dim t dim 2#24 stranded mil w 16878 type B 2 #24 solid mil-w-76 type LW 2 #26 stranded mil w 76 type LW or mil w16878 type B & E Multi piece 2 #28 solid mil-w-81822/3 RMDXK10D28 RCDXK1D28 M10S1J See assembly notice twisted pair 1/.201 solid mil w 76 type LW or mil w 16878 twisted pair solid mil w 81822/3 Female contact 6.35±0.41 Strip lengths of cable Outer hyring Twisted pair adapter YOC074 YORK-090 Inner supporting sleeve Outer female contact Inner pin RCDX60-2 RMD26L-1 RCDXB-055-1 Conductor "W" 7.95±0.41 13.49±0.41 Conductor "X" Step 1: Step 2: Step 3: Twisted pair adapter Supporting sleeve Outer hyring Male contact Outer male contact Inner socket RMDX60-2 RFD26L-1 Inner supporting sleeve RMDXB-055-3 Twisted pair adapter YORK-090 Outer hyring 7.95±0.41 YOC074 Conductor "Y" Strip lengths of cable Conductor "Z" 7.95±0.41 15.54±0.41 Step 1: Step 2: Twisted pair adapter Step 3: Locking louver typical 7.54 5.94 ±0.41 Inner supporting sleeve Outer hyring Grounding louver typical 0.25±0.05 7.54±0.41 When using solid wire flatten conductor "X" and "Z" using N24FL-1 die as shown 7.95±0.41 15.54±0.41 Note : all dimensions are in mm 52 © 2012 – SOURIAU UTL Series Appendices Twisted pair cable monocrimp contact cabling Contact type g dim t dim S80 SL105 4.7 6.1 4.32 1.30 to 1.12 1.4 to 1.22 2.97 to 2.84 3.07 to 2.9 20218204 S80 SL105 3.94 6.1 3.16 1.30 to 1.17 1.4 to 1.22 2.97 to 2.84 3.07 to 2.79 #30 solid S83 SL105 4.7 6.1 4.06 1.22 to 1.12 1.35 to 1.22 2.97 to 2.84 3.12 to 2.95 #26 7/.0063 S80 SL105 4.7 6.1 4.06 1.30 to 1.17 1.4 to 1.22 2.97 to 2.84 3.07 to 2.9 4.7 6.1 4.06 1.22 to 1.17 1.35 to 1.22 2.84 to 2.79 3.12 to 2.97 4.7 6.1 4.06 1.22 to 1.17 1.35 to 1.22 2.84 to 2.79 3.12 to 2.97 4.7 6.1 4.06 1.22 to 1.17 1.35 to 1.22 2.84 to 2.79 3.12 to 2.97 4.7 6 4 RMDX6031D28 + YORX090 #24 7/.008 #24 19/.005 AWG26 (19x0.1) RCDX6031D28 + YORX090 Crimp tool Braid crimp #28 7/.0036 per Hitachi spec ec-711 (13-2820) Mono crimp Female contact Inner conductor crimp g dim t dim Stop bushing #26 19/.004 Male contact Cable strip length A B C Die set Cable reference M10S1J M10SG8 ASSY'Y TOOL DIE SET STOP BUSHING M10S1J TOOL M10SG8 crimping kit AWG24 (7x0.2) AWG24 (19x0.13) S80 AWG26 (7x0.16) SL150 • Select appropriate monocrimp coax twisted pair contact and cable combination. • Select appropriate crimp tooling (hand tool, S-die set, stop bushing). • Strip the twisted pair cable to the designated wire strip lengths. • Insert the stripped cable into the contact. One cable is to be inserted into the inside diameter of hyring, and pushed forwaerd into the inner contact. The second cable is to be inserted between the outside diameter of hyring and the inside diameter of the outer contact body. • Crimp the contact. See cable strip lengths RMDX60 Male coax contact Cable strip length B C RCDX60 Female coax contact A 16 min. G Braid crimp (G) to be measured with die set fully closed Inner conductor crimp (G) to be measured with die set fully closed Note : all dimensions are in mm © 2012 – SOURIAU 53 Appendices G UTL Series Appendices #16 coaxial contacts Multipiece male contact with coax cable Cable reference RG161U RG179 RG187U RG188/U RG174/U RG178A/U RG196U Hyring complementary compoments Contact Outer contact crimp tool Inner contact crimp tool Crimp tool M10S1J Crimp tool M10S1J Die set Stop bushing Die set Cable strip length Stop bushing A B C 4.37 7.95 15.88 4.37 7.95 15.88 4.37 7.95 15.88 4.37 7.95 15.88 4.37 7.95 15.88 7.54 9.12 17.53 7.54 9.12 17.53 - 4.37 7.95 15.88 - 4.37 7.95 15.88 S23D2 YOC074 S26D2 Male: RMDXK10D28 YOC074 + RMDXB0553 S221 SL471 S23D2 AMPHENOL 21-598 SL46D2 YOC074 surprenant pn 8134 Cable stip length Multipiece kit details RMDXK10D28 includes RMDX602D28 Outer contact RFD26L1D28 Inner contact YOC074 Outer hyring RMDXB0553 Inner supporting sleeve A Dielectric diameter B C Contact assembly with dielectric diameter over 1.4mm - without inner supporting sleeve 15.88±0.41 Outer male contact Inner socket RMDX60-2 RFD26L-1 Step 1: - Assemble outer hyring onto cable - Assemble inner socket to inner conductor and crimp Outer hyring YOC074 Step 2: - Insert the assembly into the outer male contact until the inner socket snaps into place - The cable braid (shield) should now cover the barrel of the outer male contact as shown 7.95±0.41 Strip lengths of cable 4.37±0.41 Step 3: - Slide outer hyring forward against spring and crimp in place as shown Locking louver typical Grounding louver typical Contact assembly with dielectric diameter under 1.4mm - with inner supporting sleeve Outer male contact Inner socket RMDX60-2 RFD26L-1 Step 1: - Assemble outer hyring onto cable - Assemble supporting sleeve over dielectric and under braid - Assemble inner socket to inner conductor, push back against sleeve and crimp Supporting sleeve Note : all dimensions are in mm 54 © 2012 – SOURIAU Outer hyring Inner supporting sleeve RMDXB-055-3 Step 2: - Insert the assembly into the outer male contact until the inner socket snaps into place - The cable braid (shield) should now cover the barrel of the outer male contact as shown Outer hyring YOC074 17.53±0.41 9.12±0.41 Strip lengths of cable 7.54±0.41 Step 3: - Slide outer hyring forward against spring and crimp in place as shown Locking louver typical Grounding louver typical 48h sample service UTL Series Appendices Multipiece female contact with coax cable Cable reference RG161U RG179 RG187U RG188/U RG174/U RG178A/U RG196U Hyring complementary compoments Contact Outer contact crimp tool Inner contact crimp tool Crimp tool M10S1J Crimp tool M10S1J Die set Stop bushing Die set Stop bushing S23D2 S26D2 Female: S221 YOC074 + RCDXB0553 RCDXK1D28 SL471 21-598 B - C 11.13 11.13 11.13 11.13 11.13 11.13 11.13 - 4.37 11.13 - 4.37 11.13 YOC074 surprenant pn 8134 Cable stip length Multipiece kit details RCDXK1D28 SL46D2 S23D2 A 4.37 4.37 4.37 4.37 4.37 6.35 6.35 YOC074 AMPHENOL includes Cable strip length RCDX602D28 Outer contact RMD26L1D28 Inner contact YOC074 Outer hyring RCDXB0553 Inner supporting sleeve A Dielectric diameter B C Contact assembly with dielectric diameter over 1.4mm - without inner supporting sleeve 11.13±0.41 Outer hyring YOC074 Strip lengths of cable 4.37±0.41 Step 1: - Assemble outer hyring onto cable - Assemble inner pin to inner conductor and crimp Outer female contact Inner pin RCDX60-2 RMD26L-1 Step 2: - Insert the assembly into the outer female contact until the inner pin snaps into place - The cable braid (shield) should now cover the barrel of the outer female contact as shown Step 3: - Slide outer hyring forward against spring and crimp in place as shown Contact assembly with dielectric diameter under 1.4mm - with inner supporting sleeve Strip lengths of cable YOC074 6.35 ±0.41 Step 1: - Assemble outer hyring onto cable - Assemble supporting sleeve over dielectric and under braid - Assemble inner pin to inner conductor, push back against sleeve and crimp 48h sample service Outer hyring Supporting sleeve Supporting sleeve RCDXB-055-1 Outer female contact Inner pin RMD26L-1 Step 2: - Insert the assembly into the outer female contact until the inner pin snaps into place - The cable braid (shield) should now cover the barrel of the outer female contact as shown RCDX60-2028 Step 3: - Slide outer hyring forward against spring and crimp in place as shown Note : all dimensions are in mm © 2012 – SOURIAU 55 Appendices Outer hyring 11.13±0.41 UTL Series Appendices #16 coaxial contacts Coax cable with monocrimp contact cabling Cable reference Male contact Female contact CDC PIN22939200 RMDX6046D28 CDC PIN22939200 CDC PIN245670000 Cable strip length Inner conductor crimp g dim t dim Braid crimp Die set Stop bushing A B C g dim t dim RCDX6016D28 S80 SL105 4.19 5.97 8.51 1.30/1.17 1.40/1.22 2.77/2.64 3.02/2.84 RMDX6046D28 RCDX6016D28 S87 SL105 5.08 6.35 8.89 1.30/1.17 1.40/1.22 2.77/2.64 3.02/2.84 RMDX6050D28 RCDX6016D28 S80 SL105 5.08 6.35 8.89 1.30/1.17 1.40/1.22 2.97/2.84 3.12/2.95 KX21TVT (europe) RG178 B/U RMDX6034D28 Crimp tool S82 SL105 5.08 6.35 8.89 1.30/1.17 1.32/1.17 2.84/2.74 3.07/2.9 RG178 / BU RMDX6050D28 RCDX6016D28 RCDX6034D28 S87 SL105 5.08 6.35 8.89 1.30/1.17 1.40/1.22 2.77/2.64 3.02/2.84 3.12/2.95 ampex RMDX6032D28 RCDX6032D28 S80 SL105 5.08 6.35 11.68 1.30/1.17 1.40/1.22 2.97/2.84 TI PN 920580 RMDX6024D28 RCDX6024D28 S82 SL105 5.08 6.35 8.89 1.35/1.19 1.42/1.27 2.87/2.74 3.07/2.9 RG174/U RMDX6032D28 RCDX6032D28 S80 SL105 5.08 6.35 11.68 1.30/1.17 1.40/1.22 2.97/2.84 3.12/2.95 Honeywell PN 58000062 RMDX6026D28 RCDX6026D28 S82 SL105 5.08 6.35 8.89 1.35/1.19 1.42/1.27 2.87/2.74 3.07/2.9 RG188A/U RMDX6036D28 RCDX6036D28 S80 SL105 5.08 6.35 11.68 1.30/1.17 1.40/1.22 2.97/2.84 3.12/2.95 RG316/U RMDX6036D28 RCDX6036D28 S80 SL105 5.08 6.35 11.68 1.30/1.17 1.40/1.22 2.97/2.84 3.12/2.95 5.08 6.35 8.89 1.22/1.17 1.35/1.22 2.92/2.79 3.12/2.97 5.08 6.35 8.89 1.22/1.17 1.35/1.22 2.92/2.79 3.12/2.97 5.08 6.35 11.68 1.37/1.27 1.45/1.32 2.92/2.79 5.08 6.35 8.89 1.22/1.17 1.35/1.22 2.92/2.79 3.12/2.97 5.08 6.35 8.89 1.22/1.17 1.35/1.22 2.92/2.79 3.12/2.97 PRD PN 247AS-C1123-001 RMDX6018D28 RCDX6018D28 PRD PN 247AS-C1251 RMDX6018D28 RCDX6018D28 raychem 5024A3111 RMDX6052D28 RCDX6052D28 M10S1J M10SG8 ASSY'Y TOOL DIE SET STOP BUSHING M10S1J TOOL S88 SL105 raychem 5026e1614 RMDX6036D28 RCDX6036D28 M10SG8 ASSY'Y TOOL DIE SET STOP BUSHING M10S1J TOOL JUDD C15013010902 RMDX6036D28 RCDX6036D28 inner cond. #30, braid diam 2.64 RMDX6050D28 - S80 SL105 5.1 6.35 8.9 - - - - inner cond. #30, braid diam 2.29 RMDX6050D28 - S87 SL105 4.2 6.35 8.5 - - - - inner cond. #28, braid diam 2.9 RMDX6032D28 RCDX6032D28 S80 SL105 5.1 6.35 11.7 - - - - inner cond. #26, braid diam 1.78 RMDX6024D28 RCDX6024D28 S82 SL105 5.1 6.35 8.9 - - - - inner cond. #26, braid diam 3.05 RMDX6026D28 RCDX6026D28 S82 SL105 5.1 6.35 8.9 - - - - • Select appropriate cable and contact combination. • Select appropriate crimp tooling (hand tool, S-die set, stop bushing). • Strip coax cable to the designated wire strip lengths. • Insert the stripped coax into the rear of the contact. • Crimp the contact. See cable strip lengths Cable strip length RMDX60 Male coax contact A RCDX60 Female coax contact B C Note : all dimensions are in mm 56 © 2012 – SOURIAU 48h sample service UTL Series Appendices Glossary of terms • Clearance Per the IEC 60664-1 it is the shortest distance between two conductive parts even over the air. • CTI (Comparative Tracking Index) The CTI value is commonly used to characterize the electrical breakdown properties of an insulating material. It allows users to know the tendency to create creepage paths. This value represents the maximum voltage after 50 drops of ammonium chloride solution without any breakdown. • Creepage distance Per the IEC 60664-1 it represents the shortest distance along the surface of the insulating material between two conductive parts. Air gap Creepage distance • Working voltage Per the IEC 60664-1 it is the highest r.m.s. value of A.C. or D.C. voltage across any particular insulation which can occur when the equipment is supplied at rated voltage. • Rated impulse voltage Impulse withstands voltage value assigned by the manufacturer to the equipment or to a part of it characterizing the specified withstand capability of its insulation against transient overvoltage. • Working current It is the maximum continuous and not interrupted current able to be carried by all contacts without exceeding the maximum temperature of the insulating material. • RTI (Relative temperature Index): Extract from ULs website: “Maximum service temperature for a material, where a class of critical property will not be unacceptably compromised through chemical thermal degradation, over the reasonable life of an electrical product, relative to a reference material having a confirmed, acceptable corresponding performance defined RTI. - RTI Elec: Electrical RTI, associated with critical electrical insulating properties. - RTI Mech Imp: Mechanical Impact RTI, associated with critical impact resistance, resilience and flexibility properties. - RTI Mech Str: Mechanical Strength (Mechanical without Impact) RTI, associated with critical mechanical strength where impact resistance, resilience and flexibility are not essential” Appendices • Transient voltage Extract from the IEC 60664-1: Short duration overvoltage of a few millisecond or less, oscillatory or non-oscillatory, usually highly damped. © 2012 – SOURIAU 57 UTL Series Appendices Part number Index Mechanics UTL0103G1P................. UTL0103G1P03............... UTL0103G1S................. UTL0103G1S03............... UTL1103G1P................. UTL1103G1P03............... UTL1103G1S................. UTL1103G1S03............... UTL6103G1P................. UTL6103G1P03............... UTL6103G1S................. UTL6103G1S03............... UTL7103G1P................. UTL7103G1P03............... UTL7103G1S................. UTL7103G1S03............... P. 14 P. 14 P. 14 P. 14 P. 14 P. 14 P. 14 P. 14 P. 14 P. 14 P. 14 P. 14 P. 14 P. 14 P. 14 P. 14 Harnesses UTLMKT63G1P3FT............. UTLMKT63G1P6FT............. UTLMKT63G1P12FT............ UTLMKT63G1S3FT............. UTLMKT63G1S6FT............. UTLMKT63G1S12FT............ UTLMKT63G1SP3FT............ UTLMKT63G1SP6FT............ UTLMKT63G1SP12FT........... UTLMKT613G1SP3FT........... UTLMKT613G1SP6FT........... UTLMKT613G1SP12FT.......... P. 14 P. 14 P. 14 P. 14 P. 14 P. 14 P. 14 P. 14 P. 14 P. 14 P. 14 P. 14 Accessories SWSFILLERPLUG.............. UTL103G1PDCG68............. UTL103G1SDCG68............. UTL10DCG................... UTL610DCG.................. P. 16 P. 16 P. 16 P. 16 P. 16 Contacts RC14M25K................... RC14M30K................... RC16M23K................... RC16M25K................... RC20M12K................... RC20M13K................... RC24M9K.................... RC28M1K.................... RCDX6015D28................ RCDX6016D28................ RCDX6018D28................ 58 © 2012 – SOURIAU P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 51 P. 50 P. 50 RCDX6019D28................ RCDX6024D28................ RCDX6026D28................ RCDX602D28................. RCDX6031D28................ RCDX6032D28................ RCDX6034D28................ RCDX6036D28................ RCDX6052D28................ RCDXB0553.................. RCDXK1D28.................. RFD26L1D28................. RM14M25K................... RM14M30K................... RM16M23K................... RM16M25K................... RM20M12K................... RM20M13K................... RM24M9K.................... RM28M1K.................... RMD26L1D28................. RMDX6015D28................ RMDX6018D28................ RMDX6019D28................ RMDX602D28................. RMDX6024D28................ RMDX6026D28................ RMDX6031D28................ RMDX6032D28................ RMDX6034D28................ RMDX6036D28................ RMDX6046D28................ RMDX6050D28................ RMDX6052D28................ RMDXB0553.................. RMDXK10D28................. SC14M1S18.................. SC14ML1S18................. SC14M1TK6.................. SC14ML1TK6................. SC16M1S18.................. SC16M11S18................. SC16ML1S18................. SC16ML11S18................ SC16M1TK6.................. SC16M11TK6................. SC16ML1TK6................. SC16ML11TK6................ SC20M1S18.................. SC20ML1S18................. SC20M1TK6.................. P. 51 P. 50 P. 50 P. 55 P. 51 P. 50 P. 50 P. 50 P. 50 P. 55 P. 50 P. 54 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 55 P. 51 P. 50 P. 51 P. 54 P. 50 P. 50 P. 51 P. 50 P. 50 P. 50 P. 50 P. 50 P. 50 P. 54 P. 50 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 SC20ML1TK6................. SC24M1S18.................. SC24ML1S18................. SC24M1TK6.................. SC24ML1TK6................. SM14M1S18.................. SM14ML1S18................. SM14M1TK6.................. SM14ML1TK6................. SM16M1S18.................. SM16M11S18................. SM16ML1S18................. SM16ML11S18................ SM16M1TK6.................. SM16M11TK6................. SM16ML1TK6................. SM16ML11TK6................ SM20M1S18.................. SM20ML1S18................. SM20M1TK6.................. SM20ML1TK6................. SM24M1S18.................. SM24ML1S18................. SM24M1TK6.................. SM24ML1TK6................. YOC074..................... P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 23 P. 54 Tooling M10S1J..................... M10SG8..................... RX2025GE1.................. S16RCM14................... S16RCM1425 ................ S16RCM16................... S16RCM1625................. S16RCM20................... S16SCM20................... S16SCML1................... S16SCML11.................. S221....................... S23D2...................... S26D2...................... S471....................... S80........................ S83........................ S82........................ S87........................ SL105...................... SL46D2..................... Shandles................... P. 52 P. 53 P. 29 P. 29 P. 29 P. 29 P. 29 P. 29 P. 29 P. 29 P. 29 P. 54 P. 54 P. 54 P. 54 P. 53 P. 53 P. 56 P. 56 P. 53 P. 54 P. 29 UTL Series Appendices Appendices © 2012 – SOURIAU 59 contactindustry@souriau.com Connection Technologies XXXXCAUS02EN © Copyright SOURIAU Auguste 2012- All information in this document presents only general particulars and shall not form part of any contract. All rights reserved to SOURIAU for changes without prior notification or public announcement. Any duplication is prohibited, unless approved in writing. www.souriau-industrial.com