Jinguan Tech (Shenzhen) Co., Ltd.

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Contact - Jinguan Tech (Shenzhen) Co., Ltd.

Floor 2, building 3, lebao industrial park, fengxin road,
Guangming new district,
Shenzhen city 518017

China

Fax +86 755 23421520

Latest products added

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New arrival Auto Kn95 face mask machine

<strong>Model: </strong><strong>FD</strong><strong>-5000</strong><strong>A</strong><br />
1:Dimension: 6500mm*3500mm*19

New arrival disposable Face mask machine on -two

<strong>Model :</strong><strong>FD</strong><strong>-5000</strong><strong>A</strong><br />
1Dimension: &nbsp;6500mm*3500

Disposable Face mask machine one -two

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Nature Head Office
Year established 1996
Activity
Co.Registration No 440306103110353
VAT no 91440300670022524R
No employees 33 Employees
Kompass ID? CN231047
Kompass member for New
Membership Booster International

Presentation - Jinguan Tech (Shenzhen) Co., Ltd.

JinGuanTech(Shenzhen)Co.,Ltd, which is a leading smartcard equipments manufacturer, providing world-class, variaty of smartcard equipments and solutions for the IC card industry.

Founded in 1996 by a highly innovative team, integrates designs,develops,manufacturing,tests, care service and implements a diverse range of IC cards device productions, from concept to deployment.

We are always keen on keeping ourselves competitive in both technology innovation and quality control system, that's why we standing in the forefront among all the competitors.

With more than 20 years of experience and based on the tenet of "Concentrating on Innovation, Professional creats future, Full care satisfying users", our products have been highly approval and distributed to more than 25 countries and regions,including UK, France, USA, Italy, Brazil, Mexico, Sigapore, Korea, India, Indonesia, Poland, Russia, Spain, Malaysia, Bengal, Africa ,etc.

We are so grateful to be the supplier of our esteemed customers, say,Gemalto,HID,Oberthur,Morpho,Eastcompeace,SCIT, ACC,MCT,KL Hi Tech,Etisalat,Silkways,etc.

We provide integrated solutions for smartcard and plastic card manufacturing, especially for contact and contactless IC card machines. We have our own patents of technology and continuous innovation to improve the stability and the production speed. The speed has been improving rapidly and saving cost at a great extend which well meets the customer's requirements perfectly.

Our Main Products Includes:

  • Full Auto Smartcard Punhing Machine.

  • Card Packing/Wrapping Machine.

  • Auto Sheet Shearing and Lase Printing Machine.

  • Smartcard Auto Milling and Embedding Combi Machine.

  • High-Speed Auto GSM Card Multi-plug Punching Machine.

  • Dual Interface SmartCard Milling and Embedding Combi Machine.

  • RFID Inlay Production Equipments.

  • RFID Tag Series Machines.

  • SIM Card Personalization Machine.

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JINGUAN has been rewarded and trusted by customers globally with high-quality products, favorable prices, and fast response in care service. More importantly, we have strictly FAT and SAT in installment and technical training. JINGUAN has been obtaining a large market share both in the domestic and overseas markets. In Indian, over 60% of machines are from
JINGUAN.

News -  Jinguan Tech (Shenzhen) Co., Ltd.

Previous news
  • May 31 2020
    Mask Productions

    Honeywell Expands Face Mask Production In Europe With New Manufacturing Line In The United Kingdom

    Date: 

    End: 

    NEWHOUSE, United Kingdom, May 15, 2020 /PRNewswire/ -- Honeywell (NYSE:  HON) today announced that it will build a new production line capable of producing up to 4.5 million FFP2 and FFP3 disposable face masks per month at its Newhouse site in Scotland, United Kingdom. These masks will assist the U.K. government's response to the coronavirus (COVID-19) outbreak.
    The U.K. government has ordered 70 million of the locally produced Honeywell SuperOne face masks, with production expected to start as early as July. The masks will be distributed by the Department of Health and Social Care to the U.K.'s National Health Service (NHS) and social care settings to protect frontline workers.
    The new mask production line is expected to create approximately 450 jobs at Honeywell's Newhouse site.
    "As a global leader of high quality personal protective equipment, Honeywell is committed to getting safety gear to those who need it most, including workers on the front line of the fight against COVID-19," said Will Lange, president of Honeywell's  personal protective equipment business. "Our Newhouse facility has both the physical capacity and technical capabilities to launch a large-scale respirator production line in such a short timeframe. We are proud of our teams who are bringing new manufacturing capabilities to the United Kingdom as quickly as possible to support the country's response to the pandemic."
    This is the third new face mask production line Honeywell has announced in the last two months. The company started two new manufacturing lines in the United States for the North American market.
    Honeywell's Newhouse plant specializes in electronic systems assembly and testing and other advanced manufacturing capabilities for several of Honeywell's business groups, and will continue to do so alongside the new face mask line.
    "These 70 million masks are the result of our challenge to U.K. industry to scale-up domestic PPE manufacturing," said Matt Hancock, Health Secretary, U.K. government. "This deal is brilliant news for the whole United Kingdom, which will not only deliver the masks we need but create around 450 jobs in Newhouse, Scotland. I'm delighted to team up with Honeywell to open up another avenue to get millions of masks to the frontline and strengthen our ongoing response to the outbreak."
    Honeywell will supply the 70 million face masks from Newhouse to the U.K. government over an 18-month timeframe.
  • May 27 2020
    Product knownology

    Types Of Smart Card

    Date: 

    Smart cards are defined according to 1). How the card data is read and written 2). The type of chip implanted within the card and its capabilities. There is a wide range of options to choose from when designing your system.

    Card Construction
    Mostly all chip cards are built from layers of differing materials, or substrates, that when brought together properly gives the card a specific life and functionality. The typical card today is made from PVC, Polyester or Polycarbonate. The card layers are printed first and then laminated in a large press. The next step in construction is the blanking or die cutting. This is followed by embedding a chip and then adding data to the card. In all, there may be up to 30 steps in constructing a card. The total components, including software and plastics, may be as many as 12 separate items; all this in a unified package that appears to the user as a simple device.

    Contact Cards
    These are the most common type of smart card. Electrical contacts located on the outside of the card connect to a card reader when the card is inserted. This connector is bonded to the encapsulated chip in the card.
    Increased levels of processing power, flexibility and memory will add cost. Single function cards are usually the most cost-effective solution. Choose the right type of smart card for your application by determining your required level of security and evaluating cost versus functionality in relation to the cost of the other hardware elements found in a typical workflow. All of these variables should be weighted against the expected lifecycle of the card. On average the cards typically comprise only 10 to 15 percent of the total system cost with the infrastructure, issuance, software, readers, training and advertising making up the other 85 percent. The following chart demonstrates some general rules of thumb:

    Memory Cards
    Memory cards cannot manage files and have no processing power for data management. All memory cards communicate to readers through synchronous protocols. In all memory cards you read and write to a fixed address on the card. There are three primary types of memory cards:  StraightProtected, and  Stored Value. Before designing in these cards into a proposed system the issuer should check to see if the readers and/or terminals support the communication protocols of the chip. Most contactless cards are variants on the protected memory/segmented memory card idiom.

    Straight Memory Cards
    These cards just store data and have no data processing capabilities. Often made with I2C or serial flash semiconductors, these cards were traditionally the lowest cost per bit for user memory. This has now changed with the larger quantities of processors being built for the GSM market. This has dramatically cut into the advantage of these types of devices. They should be regarded as floppy disks of varying sizes without the lock mechanism. These cards cannot identify themselves to the reader, so your host system has to know what type of card is being inserted into a reader. These cards are easily duplicated and cannot be tracked by on-card identifiers.

    Protected / Segmented Memory Cards
    These cards have built-in logic to control the access to the memory of the card. Sometimes referred to as Intelligent Memory cards, these devices can be set to write- protect some or the entire memory array. Some of these cards can be configured to restrict access to both reading and writing. This is usually done through a password or system key. Segmented memory cards can be divided into logical sections for planned multi-functionality. These cards are not easily duplicated but can possibly be impersonated by hackers. They typically can be tracked by an on-card identifier.

    Stored Value Memory Cards
    These cards are designed for the specific purpose of storing value or tokens. The cards are either disposable or rechargeable. Most cards of this type incorporate permanent security measures at the point of manufacture. These measures can include password keys and logic that are hard-coded into the chip by the manufacturer. The memory arrays on these devices are set-up as decrements or counters. There is little or no memory left for any other function. For simple applications such as a telephone card, the chip has 60 or 12 memory cells, one for each telephone unit. A memory cell is cleared each time a telephone unit is used. Once all the memory units are used, the card becomes useless and is thrown away. This process can be reversed in the case of rechargeable cards.

    CPU/MPU Microprocessor Multifunction Cards
    These cards have on-card dynamic data processing capabilities. Multifunction smart cards allocate card memory into independent sections or files assigned to a specific function or application. Within the card is a microprocessor or microcontroller chip that manages this memory allocation and file access. This type of chip is similar to those found inside all personal computers and when implanted in a smart card, manages data in organized file structures, via a card operating system (COS). Unlike other operating systems, this software controls access to the on-card user memory. This capability permits different and multiple functions and/or different applications to reside on the card, allowing businesses to issue and maintain a diversity of ‘products’ through the card. One example of this is a debit card that also enables building access on a college campus. Multifunction cards benefit issuers by enabling them to market their products and services via state-of-the-art transaction and encryption technology. Specifically, the technology enables secure identification of users and permits information updates without replacement of the installed base of cards, simplifying program changes and reducing costs. For the card user, multifunction means greater convenience and security, and ultimately, consolidation of multiple cards down to a select few that serve many purposes.
    There are many configurations of chips in this category, including chips that support cryptographic Public Key Infrastructure (PKI) functions with on-board math co-processors or  JavaCard® with virtual machine hardware blocks. As a rule of thumb - the more functions, the higher the cost.

    Contactless Cards
    These are smart cards that employ a radio frequency (RFID) between card and reader without physical insertion of the card. Instead, the card is passed along the exterior of the reader and read. Types include proximity cards which are implemented as a read-only technology for building access. These cards function with a very limited memory and communicate at 125 MHz. Another type of limited card is the Gen 2 UHF Card that operates at 860 MHz to 960 MHz.
    True read and write contactless cards were first used in transportation applications for quick decrementing and reloading of fare values where their lower security was not an issue. They communicate at 13.56 MHz and conform to the ISO 14443 standard. These cards are often protected memory types. They are also gaining popularity in retail stored value since they can speed up transactions without lowering transaction processing revenues (i.e. Visa and MasterCard), unlike traditional smart cards.
    Variations of the ISO14443 specification include A, B, and C, which specify chips from either specific or various manufacturers. A=NXP-(Philips) B=Everybody else and C=Sony only chips. Contactless card drawbacks include the limits of cryptographic functions and user memory, versus microprocessor cards and the limited distance between card and reader required for operation.

    Multi-mode Communication Cards
    These cards have multiple methods of communications, including ISO7816, ISO14443 and UHF gen 2. How the card is made determines if it is a Hybrid or dual interface card. The term can also include cards that have a magnetic-stripe and or bar-code as well.

    Hybrid Cards
    Hybrid cards have multiple chips in the same card. These are typically attached to each interface separately, such as a MIFARE chip and antenna with a contact 7816 chip in the same card.

    Dual Interface Card
    These cards have one chip controlling the communication interfaces. The chip may be attached to the embedded antenna through a hard connection, inductive method or with a flexible bump mechanism.

    Multi-component Cards
    These types of cards are for a specific market solution. For example, there are cards where the fingerprint sensor is built on the card. Or one company has built a card that generates a one-time password and displays the data for use with an online banking application. Vault cards have rewriteable magnetic stripes. Each of these technologies is specific to a particular vendor and is typically patented.

    Smart Card Form Factors
    The expected shape for cards is often referred to as CR80. Banking and ID cards are governed by the ISO 7810 specification. But this shape is not the only form factor that cards are deployed in. Specialty shaped cutouts of cards with modules and/or antennas are being used around the world. The most common shapes are SIM. SD and MicroSD cards can now be deployed with the strength of smart card chips. USB flash drive tokens are also available that leverage the same technology of a card in a different form factor.
    Integrated Circuits and Card Operating Systems
    The two primary types of smart card operating systems are (1)  fixed file structure and (2)  dynamic application system. As with all smartcard types, the selection of a card operating system depends on the application that the card is intended for. The other defining difference lies in the encryption capabilities of the operating system and the chip. The types of encryption are  Symmetric Key and  Asymmetric Key (Public Key).
    The chip selection for these functions is vast and supported by many semiconductor manufacturers. What separates a smart card chip from other microcontrollers is often referred to as trusted silicon. The device itself is designed to securely store data withstanding outside electrical tampering or hacking. These additional security features include a long list of mechanisms such as no test points, special protection metal masks and irregular layouts of the silicon gate structures. The trusted silicon semiconductor vendor list below is current for 2010: Many of the features that users have come to expect, such as specific encryption algorithms, have been incorporated into the hardware and software libraries of the chip architectures. This can often result in a card manufacturer not future-proofing their design by having their card operating systems only ported to a specific device. Care should be taken in choosing the card vendor that can support your project over time as card operating system-only vendors come in and out of the market. The tools and middleware that support card operating systems are as important as the chip itself. The tools to implement your project should be easy to use and give you the power to deploy your project rapidly.
    Please see the  security section on this website for more information regarding PKI.

    Fixed File Structure Card Operating System
    This type treats the card as a secure computing and storage device. Files and permissions are set in advance by the issuer. These specific parameters are ideal and economical for a fixed type of card structure and functions that will not change in the near future. Many secure stored value and healthcare applications are utilizing this type of card. An example of this kind of card is a low-cost employee multi-function badge or credential. Contrary to some biased articles, these style cards can be used very effectively with a stored biometric component and reader. Globally, these types of microprocessor cards are the most common.

    Dynamic Application Card Operating System
    This type of operating system, which includes the JavaCard® and proprietary MULTOS card varieties, enables developers to build, test, and deploy different on card applications securely. Because the card operating systems and applications are more separate, updates can be made. An example card is a SIM card for mobile GSM where updates and security are downloaded to the phone and dynamically changed. This type of card deployment assumes that the applications in the field will change in a very short time frame, thus necessitating the need for dynamic expansion of the card as a computing platform. The costs to change applications in the field are high, due to the ecosystem requirements of security for key exchange with each credential. This is a variable that should be scrutinized carefully in the card system design phase.
  • May 7 2020
    New product

    Disposable face mask machine

    Model: FD -5000 A
    1:Dimension: 6500mm*3500mm*1950mm    
    2:Input Voltage: 220v 50-60HZ                                
    3:Power: 10KW
    4:Weight: 2000KG                                                     
    5:Auto grade: Full automatic                             
    6:Use Inviroment: Normal workshop temperature Clean                                                                                                                    7:Prodcue CT: 120-160pcs/Min
    8:Operator: 1 person
  • May 7 2020
    New product

    Auto Kn95 face mask machine

    Model: KN95-5000B
    1: Power(Kw): 14.5KW
    2: Weight: 1000kg
    3: Voltage: 380v
    4: Dimesions(L*W*H): 10500x1500x2200mm
    5: Production Capacity: 50pcs/Min
    6: Automatic Grade: Full Automatic
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United Kingdom, France, United States, Italy, Brazil, Mexico, Singapore, South Korea, India, Indonesia, Poland, Russian Federation, Spain, Malaysia, Bangladesh

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Mr. Vince Lu

CEO - Chief Executive Officer

Spoken languages  Chinese, English