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Shenzhen SenKin Electronic Co., Ltd has more than 10 years of experience in manufacturing cable and our major products are Silicone Cable/PTEE Cable/PUR /TPU Cable which used in the Auto sensors, High temperature resistance which use in Special Industry, Military Industry, Medical Industry, Robot Industry,Aerospace Industry with the monthly turnout of 500,000 meters. All our cables are the kind of Low Voltage Multicore Cable. We handle tooling, production and packaging with the use of our eight production lines, supported by 150 staff members in our 2500 sqm factory. Our resources including production equipment and testing facilities from Taiwan and Japan enable us to turn out up to 500,000 meters monthly and provide major professional OEM service. We are always concentrate on what your request, could make the very professional suggestion and useful solution for your cable.

Multicore cable is a generic term for an electrical cable that has multiple cores made of copper wire. The term is normally only used in relation to a cable that has more cores than commonly encountered. For example, a four core mains cable is never referred to as multicore, but a cable comprising four coaxial cables in a single sheath would be considered multicore. The term snake cable is frequently used in the professional audio recording industry to refer to an audio multicore cable. Multicore cables are used with professional video cameras. In television studios, 26-pin cables are used to connect "cameras" to camera control units (CCU). Triaxial cables are used primarily in outside broadcasting however both are capable of delivering an HD-SDI feed and 30 - 40 Watts of power for the Cameras. Many different kinds of multicore cable can be found in the list of video connectors. Typical signals multicore cable can provide both digital signal and analog signals: Video out (Serial digital interface (SDI)) Video out (composite video) Video out (component video) Audio out (microphone on board) Video in (genlock in the form of color burst) Return video in Return video in (composite) Interruptible feedback Intercom Tally light trigger

The Client From South American Come To Our Company To Look For TPU PU Cable. Our TPU PU PUR cable used on many industrial, most use as the control cable, or our cable could be accepted custom and will be best quality to all our clients. Our Cable use the best material with RoHS and REACH Certification. To make sure the best quality , all of Senkin Cable are try their best to fight.

Custom cables are used wherever a standard cable won`t suffice. They are manufactured with a specific application in mind, utilising unique components and designs to fulfil the demands of an operating environment. Custom Designed Cables have over 20 years` experience in designing, manufacturing and supplying custom cables; We are unrivalled in both service and quality and we are one of the UK`s leading cable manufacturers. Key services Any custom cable requirement is welcomed, in small and large production runs – No MOQ Standard lead time: 7 – 10 days from receipt of enquiry including initial consultation and discussions An extensive range of manufacturing capability, based on decades of experience Twisted pairs, triples, quads, bunches up to 180 individual cores twisted Various cable shielding options such as serve shields/lapped screens or braided shields – from single conductor to individual elements within the cable to overall cable shields in Plain or Tinned Copper, Oxygen free Copper or Silver plated Copper Various cable taping capability in the form of Aluminium foil screens with drain strands, Polyester Melinex tapes, Lantor paper tapes or water blocking tapes Vast cable oversheathing stock portfolio – multiple grades of: PP, PE, PVC, PUR/TPU, Hytrel/TPE, TPV, LSOH/LSZH, Nylon PA12, PA/11 Full traceability and supporting documentation of all the components we use High quality and cost-effective custom made cables for a wide range of applications Our cable manufacturing experts design custom cables for a broad range of industries, including the automotive, audio and video, instrumentation, medical and offshore sectors. Our vast and varied exposure to a wide variety of industries and applications means that we can design and manufacture bespoke cables to meet any requirement. By applying our quality approach to cable manufacturing we guarantee a robust, high-quality and cost effective custom made cable. View our approach to cable manufacturing Our cable design process begins with an in-depth conversation with the customer to determine their requirements, the application the cable will be used for, and the operating environment. Our expert team then begin designing the ideal solution for your technical requirements and budget, sourcing high-quality materials selected specifically for your cable. All of the cables we produce are different; for the most part, however, we build cables using Class 5 flexible plain, tinned or silver plated copper, insulated in appropriate grades of Teflon,Silicone,TPU/PU,PUR, TPE,TPV,Polyethylene, Polypropylene, or PTFE – Some to UL or BS Specifications. We then twist the conductors in the cable using either our high speed double twist bunchers or large planetary lay-up machines. Then, screening is applied if necessary – if not, the cable is fast forwarded to the cable extrusion process. The cable is then wound onto the despatch reels where it is subjected to a strenuous quality assured testing procedure to confirm it`s conformity to the specification. Finally, the cable is shipped to the customer on the specified delivery date with all of the accompanying documentation. Call Senkin on +86-186-8218-3914 or contact us online to discuss your cabling requirements.

A multicore cable is a generic term for an electrical cable that has multiple coresmade of copper wire. The term is normally only used in relation to a cable that hasmore cores than commonly encountered. For example, a four core mains cable isnever referred to as multicore, but a cable comprising four coaxial cables in a singlesheath would be considered multicore. We`ve dedicated a lot of space on the blog over the past few weeks to some of the applications custom cables can be used for. Over the course of these blogs, we`ve mentioned some relatively technical concepts which, while relatively easy to grasp, do take some learning to fully understand. With that in mind, we`ve decided to take things back to basics and explain the concepts and benefits behind one of the fundamentals of custom cable design – multicore cables. The Definition of a Multicore Cable A multicore cable is any cable that has more cores in it than a cable of that type would usually have. That means that a cable with more than one core doesn`t necessarily qualify as multicore; for example, if a cable design usually features 12 cores, then a 12 core cable would be the standard rather than multicore. A 16 core cable, however, would be considered a multicore cable. The cores in a multicore cable are bundled together with a single cable and often carry out different functions; a multicore cable can include power, data transmission and AV elements inside a single cable sheath. Often a multicore cable will split at the end, allowing for each of these elements to be connected to whatever it is they need to be connected to in order to carry out their function. Multicore cables are extremely versatile and can be utilised across a broad range of industries and for many different applications. Because of this, many multicore cables are custom built by cable designers. However, multicore cables can also be built from existing cables, with the cores twisted to form a single cable even if the cables have different sizes of conductors. In most instances, a multicore cable will feature heavy cable jacketing in order to protect the cable from damage and negate the effects of electromagnetic interference. However, multicore cable designs can actually neglect this jacket in order to reduce the overall weight of the cable. This choice depends entirely on the kind of application for which the cable will be used. What Are Multicore Cables Used For? Multicore cables are extremely versatile and are used for all kind of applications, especially those which would otherwise call for a high volume of cables. Multicore cables are often used in electronic equipment and for applications where space is limited, such as aircraft and medical equipment. Multicore cables are also used extensively in entertainment, with concert venues and theatres often utilising cables combining power, data and AV to avoid a tangled mass of cables running across the stage! These cables often split off at the end to form a mass of different connectors; this design is often referred to as a `snake cable`. In short, multicore cables can be used anywhere that might benefit from combining data, power, coaxial and AV cores into a single cable! For more information on multicore cables and what they could do for your business, get in touch with Custom Designed Cables.

Biocompatibility- [the condition of being compatible with living tissue or a living system by not being toxic or injurious and not causing immunological rejection." Biocompatibility is an essential requirement when designing medical devices and diagnostic applications. Constructing a piece of equipment that has low tolerance for sterilization and disinfection can lead to a patient`s increase in susceptibility to healthcare-acquired infections. In order to reduce the susceptibility of healthcare-inquired infections and other serious infections, choosing the right biocompatible material becomes a very important decision. In the wire and cable world, there are a few materials that stand out from the crowd in terms of their biocompatible properties, the stand out being silicone. Silicone is an elastomeric polymer composed of silicon, carbon, hydrogen, and oxygen. Silicone is an adaptable material that is used as a jacket material, adhesive, lubricant, insulation, and sealant. Silicone is used both as a jacket material and overmold for cable assemblies in medical device applications because it is the most compatible in terms of sterilization, disinfection, and cleaning. Silicone cable jacketing is also highly flexible, a desirable characteristic for cables that are manipulated during surgical and endoscopic procedures. Silicone cable is typically jacketed using the extrusion process. Meaning, the silicone jacket fully encompasses and conforms to the wire or cable bundle. This reduces the gap between cable and jacket and prevents any harmful particles from getting into the cable. Here is a summary of silicone`s remarkable benefits: Bionert- Liquid silicone rubber is typically formulated to comply with FDA and ISO 10993 biocompatibility standards, meaning the material does not initiate a response or cause a reaction when introduced to human tissue. Silicone rubber does not support bacterial growth and does not typically corrode or stain other materials Non-Reactive- Silicone will not react to disinfectant or sterilization chemicals Heat Resistance- Molded silicone can withstand higher temperatures than most thermoplastic resins. Although most medical procedures do not require the use of extreme high temperatures, silicone can withstand repeated autoclave steam sterilizations Strength- Silicone rubber products have higher tear strength than most thermoplastic elastomers, making silicone a great overmold material because the walls are designed thin but remain durable Silicone is a great material to use across multiple facets of the medical industry. Be sure to check out Alpha Wire`s extensive offering of silicone hook-up wire, and silicone cable capabilities brought to you by Coast Custom Cable

Learn more about halogen free cabling, it uses and the benefits. Halogen free or zero halogen cabling is used in many areas of the cable and wiring industry, including aircraft, rail and construction. Used to protect wiring, it is proven to limit the amount of toxic gas emitted when it comes into contact with heat. Why use halogen free cable? Low smoke and halogen free cabling is becoming increasingly necessary to protect against the risk of toxic gas emissions during a fire. Standard RG cables contain halogen insulation. Halogen insulation was first used because it helps prevent cables from fire, but if it does ignite, the resulting fumes are highly toxic and a major risk, both to human life and to circuitry in place: critical, for example, in an aircraft. Halogen free cables are engineered and designed so that emissions during a fire offer low toxicity and low smoke. This type of cabling is increasingly of relevance in public sector housing and major new developments. It could be increasingly worthwhile and of interest when it comes to elderly housing too, where items such as disabled stair lifts are in use and the risk of additional complications as a result of fire significant. If you intend using halogen free cabling it is worth noting that most types of zero-halogen cabling still work with the same standard and circular connectors used with RG cables. Many advocates of halogen free cable also argue that it is lower in weight, so overall system weights can be reduced, while also offering greater flexibility over standard RG cabling. Halogen free cabling is also easier to dispose of compared to other forms of cabling that emit toxic gasses when burned and can be toxic to dispose of by other means.

What are halogens? Halogens are non-metallic elements found in the periodic table. The five halogens are fluorine, chlorine, bromine, iodine, & astatine. A common material that contains halogens in the chemical structure is PVC. Halogens make cable jackets and insulation highly flame retardant. Some naturally non-halogenated materials have halogen added because of the flame retardant properties. When burned, halogens emit a thick toxic smoke and become corrosive. These characteristics can cause damage to equipment and pose a safety concern. Why consider halogen-free cable? Over the last few years, halogen-free wire and cabling products have seen an increase in popularity. Halogen-free cables are used in consideration of issues including fire safety, fire damage prevention, and the environment. Halogen-free cables help eliminate the use of environmentally sensitive materials. What does LSZH mean? LSZH stands for low smoke zero halogen. The compounds in the cable insulation and jacket have no fluorine, chlorine, bromine, iodine, or astatine. This means that the cable emits little to no toxic halogens and minimal smoke when in contact with fire. These are important safety precautions and they often appear together in wire and cable specifications. LSZH wire and cable is also called: low smoke non halogen (LSNH), low smoke halogen free (LSHF), and low smoke zero (0) halogen (LS0H). In what applications can halogen-free cable be used? Halogen-free cable is intended for use in applications in which insulation with low toxicity, low smoke generation, and low corrosiveness is needed. Examples include rapid transit, industrial, shipboard, and commercial fields where human safety and protection of equipment is a concern. Does the NEC allow low-smoke halogen-free cable in all applications? The NEC (National Electrical Code) doesn't prohibit halogen-free cable or wire installation in any application. The NEC does require low smoke cables for plenum spaces. Is there a difference between low smoke and zero halogen? Low smoke and zero halogen are not equivalent. Low smoke cable emits a thinner and clearer smoke when burning. This feature makes evacuation and firefighting efforts much easier and safer. A cable may be low smoke and still contain toxic halogens. Zero halogen means that the cable does not contain fluorine, chlorine, bromine, iodine or astatine. Zero halogen cable may still emit a thick smoke when burned. Both properties are not always needed for all cables. Check specifications to be sure that the cable meets both requirements if necessary for your application. Are there any disadvantages to using low smoke zero halogen cables? Low smoke zero halogen cables provide a lot of great safety advantages, but there is a bit of an electrical and mechanical trade-off. In order to be low smoke zero halogen, the cable jacket must incorporate a high percentage of filler material. This increase in filler material could make the jacket less chemical and water resistant and could provide poorer mechanical and electrical properties than a non-LSZH counterpart. LSZH jackets are also more likely to experience jacket cracking during installation, so special lubricants may be necessary to avoid damage. This is especially true in cold environments. Because of the limited flexibility of LSZH, it is not recommended in robotic or continuous flex applications. As a result, LSZH cable is commonly chosen for applications where fire safety is more of a concern than the cable`s specific electrical and mechanical properties. Advances in compound materials and processing have decreased some of these issues. Can LSZH pass a flame test? Yes. LSZH may pass a standard flame test. To determine how an LSZH cable will react in a fire, the following five criteria are considered: How easily the cable will catch fire How quickly the fire will spread along the cable How much smoke is produced upon combustion How toxic are the byproducts How corrosive are the byproducts Some test standards related to this type of cable are Plenum rated, LS rated, S1 rated, and ASTM D5424. What should be considered when choosing LSZH? When choosing LSZH products, factors such as the environment and price should be considered. An environmental factor such as the temperature of the installation could reduce the flexibility of the cable. Will the application be in an open area or confined? Will other flammable material be present? Low smoke zero halogen cable also tends to be higher in cost. Consult an expert from Allied Wire and Cable to find the best fit for your application.

Which Cordset or Cable Material Should I Select for My Application? When it comes to specifying a cable to use with your recent sensor purchase, you may notice a handful of options in regards to the cable quality and jacket material. You will see model numbers containing letter combinations, such as PUR, PVC, POC, PUR H/S, and even STOOW. What do these letters mean? How do I know which one to select for my application? These letter groupings represent the cable material, and when deciding which one is the best option, it is heavily based on the application requirements. Let`s take a little time to familiarize ourselves with the two most common cable material options, PVC and PUR, while looking at some of the advantages and disadvantages of each. PVC- Polyvinyl Chloride This would be considered the standard cable material for the electrical industry and is used in many general-purpose applications. The advantages of PVC include: Lower cost Excellent flame resistance Chemical resistant Suitable for flexible installation Resistant to ozone and weather Easily strippable Suitable for the food and beverage industry The disadvantages of PVC include: Limited resistance to oil and lubricants Limited abrasion resistance Not recommended for high-temperature applications (rated to 80 ºC) Flexibility decreases at low temperatures No environmental benefits PUR- Polyurethane This cable material is suitable for long-term flexible use in complex applications. The advantages of PUR include: High abrasion resistance Resistant to oils, grease, and solvents Extremely durable UV resistant Halogen-free Flexible at low temperatures The disadvantages of PUR include: Higher cost Low flame resistance Not recommended for high-temperature applications (rated to 80 ºC) After reviewing the two most common cable material options, you may notice that PVC and PUR are not recommended for high-temperature applications. When selecting a cable for use in a high-temperature process, the better options would be PUR H/S (irradiated PUR), POC, and STOOW cables. PUR H/S - Irradiated PUR This cable offers advantages that are similar to the conventional PUR cables but is also resistant to high temperatures. Irradiated PUR is usable up to 105 ºC and is suitable for welding applications. POC POC is another cable material best suited for welding applications. POC is very resistant to extreme temperatures as it is usable up to 150 ºC, which is the highest offered. It is also weld-slag resistant, flame retardant, and has effective resistance to oils or chemicals. These properties make it a very popular choice for the automobile industry. STOOW This cable material is an extremely resilient PVC mixture commonly used with Mini (7/8") AC connectors. It is approved to a very high voltage, 600 V, as well as high temperatures, 105 ºC. It has an effective resistance to chemicals or oils and is rated above average for flame retardance. STOOW is also performance tested for outdoor use and has excellent resistance to weather conditions. It is used predominantly in the American market. Cable material plays an important role in the success of an application. You need to ensure that you have the correct material for your environment and process. Selecting the right material will save you a lot of time and money. Now that you have a general understanding of the cable material options we offer, building a cordset model number should be quick and easy.

Broadly speaking TPE thermoplastic elastomers are all collectively. English name TPR thermoplastic rubber SBS thermoplastic rubber for the substrate generally made TPU modified polyurethane-based thermoplastic elastomer. Also in another TPE TPE-S with the styrene elastomer as the base material of the elastomer, sometimes referred to TPR (Zhejiang and Taiwan region called more), sometimes can replace defective TPU.TPE-S is it is very solvent oil. The low end of TPE-S is still intolerant climate, resistance is relatively poor stability. TPE and TPU are all thermoplastic materials having rubber elasticity, hardness close to the TPE and TPU materials, in particular black, have a certain softness and rubber elasticity, such as visual observation alone, sometimes difficult to distinguish the TPE or TPU a. But details of the start, you can still many ways to analyze the differences and differences of TPE and TPU. 1. Hardness (range) of Difference SEBS-based TPE modified with a wide adjustable hardness, hardness range ShoreA Scale 0 ~ 100 in the range of variation, and TPU hardness range is usually Shore60A ~ Shore70D (currently abroad appear soft TPU hardness of about 45A, but the price is quite expensive). Thus, it can be said TPE hardness is low hardness section, and the hardness of the TPU is high hardness. 2. combustion distinction TPE has a faint aroma burning, burning smoke less and lighter. TPU is burning odor with some irritation, there is a slight explosion Zizi when burned. 3. The performance difference TPU elastic and elastic recovery properties (resistance to flex creep resistance) than TPE. The main material is TPU polymer structure homogeneous structure, are polymer resins. The TPE is a multi-component alloy material by blending a multiphase structure aggregate. High hardness of TPE products prone to deformation processing, while all the hardness in the interval range, TPU exhibited excellent elasticity, and the products easily deformed. 4. touch on differences Some overmolded products, such as handles, wheels, may be of TPE or TPU. TPU materials products, feel more rough, strong friction; TPE material and products, you feel more delicate and soft, friction performance is weak. In summary, TPE and TPU are all soft material, have good rubber elasticity. In comparison, TPE in terms of comfort touch more remarkable, TPU is more exhibits excellent elasticity and strength. Lower hardness of the product (such as 30A or less), the need to use TPE, can play a non-slip cushion rebound damping effect. For high hardness (80A above) requirements and elastic products, with TPU to be competent. TPE shrinkage of 1.2 ~ 3%; TPU shrinkage of 0.8 to 1.8 percent. Depending on the specific values depending on grades. General TPU shrink smaller high hardness, high hardness TPE, the proportion of high shrink smaller.

Dear All Our Client , We'd Like To Inform You We Will Take Our Low Voltage Multi Core Cable To Join The TUBE&WIRE 2018 Dusseldorf. This Time We Will Show Our Silicone Cable , Teflon Cable , TPU/PU Cable , PUR Cable , TPE Cable ,TPV Cable Together. All Our Cables Have The Feature Of Halogen Free , High Temperature Resistance And Flexible... Our Cables Are Used In Automation Industrial , Auto Industrial , Sensor , CNC Equipment , Military Industrial , Medical Industrial , Robot and Robot Arm And So On. Welcome to Visit Our Store During 16th , April to 20th , April 2018. Do Remember Our Booth NO. Is 16h24-03. Mr Allen Will Provide Very Professional Service For Your Cable Project.

Braiding machines and Bobbin winder for Shield PUR PU Silicone TPU TPE TPV multi core cable

After Saw The excellent Show, How the Human's Order transfer to the robot? All we know human accord to PC to control the robot,but the PC need Cable to transfer the data to robot... Yes,we are the professional major on this kinds flexible cable. Go on the show....

What is a Multicore Cable? We`ve dedicated a lot of space on the blog over the past few weeks to some of the applications custom cables can be used for. Over the course of these blogs, we`ve mentioned some relatively technical concepts which, while relatively easy to grasp, do take some learning to fully understand. With that in mind, we`ve decided to take things back to basics and explain the concepts and benefits behind one of the fundamentals of custom cable design – multicore cables. The Definition of a Multicore Cable A multicore cable is any cable that has more cores in it than a cable of that type would usually have. That means that a cable with more than one core doesn`t necessarily qualify as multicore; for example, if a cable design usually features 12 cores, then a 12 core cable would be the standard rather than multicore. A 16 core cable, however, would be considered a multicore cable. The cores in a multicore cable are bundled together with a single cable and often carry out different functions; a multicore cable can include power, data transmission and AV elements inside a single cable sheath. Often a multicore cable will split at the end, allowing for each of these elements to be connected to whatever it is they need to be connected to in order to carry out their function. Multicore cables are extremely versatile and can be utilised across a broad range of industries and for many different applications. Because of this, many multicore cables are custom built by cable designers. However, multicore cables can also be built from existing cables, with the cores twisted to form a single cable even if the cables have different sizes of conductors. In most instances, a multicore cable will feature heavy cable jacketing in order to protect the cable from damage and negate the effects of electromagnetic interference. However, multicore cable designs can actually neglect this jacket in order to reduce the overall weight of the cable. This choice depends entirely on the kind of application for which the cable will be used. What Are Multicore Cables Used For? Multicore cables are extremely versatile and are used for all kind of applications, especially those which would otherwise call for a high volume of cables. Multicore cables are often used in electronic equipment and for applications where space is limited, such as aircraft and medical equipment. Multicore cables are also used extensively in entertainment, with concert venues and theatres often utilising cables combining power, data and AV to avoid a tangled mass of cables running across the stage! These cables often split off at the end to form a mass of different connectors; this design is often referred to as a `snake cable`. In short, multicore cables can be used anywhere that might benefit from combining data, power, coaxial and AV cores into a single cable! For more information on multicore cables and what they could do for your business, get in touch with Custom Designed Cables.

Do You Know How To Choose The Cable Material Of Jacket , Insulation And Conductor? You know there are so many different Special Material here in the world for Cable, such like PUR/TPU/PU/PFA/FEP/SILICONE/TPE/TPEE/PP/MPPO and so on. WTF Crazing, right???? How to choose? Checking...... Cause All The Different Material Have The Different Features, Some Have High Temperture Resistance But Some Have Not , We Need Note The Important Things To Choose The Right Match Material. Then Do You Know How To Match The Cable's Jacket , Insulation and Conductor Material? Take Easy And Please Note And Check The Below Sheet: Jacket Material Insulation Material Conductor Material TPU/PU TPE/PFA/TPEE/MPPO/Silicone Rubber/PP/HDPE Bare Copper/Tinned Copper Wire/Tinsel Wire/Silver Plated Wire/Platinum Wire/Varnished Wire PUR TPE/PFA/TPEE/MPPO/Silicone Rubber/PP/HDPE Bare Copper/Tinned Copper Wire/Tinsel Wire/Silver Plated Wire/Platinum Wire/Varnished Wire TPE TPE/PFA/TPEE/MPPO/Silicone Rubber/PP/HDPE Bare Copper/Tinned Copper Wire/Tinsel Wire/Silver Plated Wire/Platinum Wire/Varnished Wire TPV TPE/PFA/TPEE/MPPO/Silicone Rubber/PP/HDPE Bare Copper/Tinned Copper Wire/Tinsel Wire/Silver Plated Wire/Platinum Wire/Varnished Wire MPR TPE/PFA/TPEE/MPPO/Silicone Rubber/PP/HDPE Bare Copper/Tinned Copper Wire/Tinsel Wire/Silver Plated Wire/Platinum Wire/Varnished Wire PEBAX TPE/PFA/TPEE/MPPO/Silicone Rubber/PP/HDPE Bare Copper/Tinned Copper Wire/Tinsel Wire/Silver Plated Wire/Platinum Wire/Varnished Wire Silicone Rubber FEP/PFA/Silicone Rubber Bare Copper/Tinned Copper Wire/Tinsel Wire/Silver Plated Wire/Platinum Wire Teflon Teflon Bare Copper/Tinned Copper Wire/Tinsel Wire/Silver Plated Wire/Platinum Wire

27th,July 2017. Mr Ron Hogg Come To Our Senkin For Business Visit. This Time His Major Inquiry Are The PU Spiral Cables Which Used On "Z" Company's Major Products---Metal Detector. We Had Agreement On The Solution Of The Problem. For The Spiral Cable,Our Senkin Could Provide The Very Professional Solution To Client's Cable Project. We Look Foward Future Business Chance With "Z" Company. Welcome,Mr Ron Hogg Mr Ron Hogg To Visit Our Production Line Mr Ron Hogg Discuss With Our Engineer Time Always Short And Fast Mr Ron Hogg Need Leave As Soon