Mifare Encoding From Card Studio Using The Zebra Windows Driver
Mifare Encoding from Card Studio using the Zebra Windows driver The right asset. In the right place. At the right time.
Mifare Encoding using Card Studio The following slides will present a basic way to encode Mifare cards using Card Studio. You will need a Zebra printer with a Mifare encoder (printers with letter D or H in the part number -or upgraded with kit 105912G-134) and Card Studio Professional (Zebra # P 1031775-001). The Zebra Mifare encoder uses a GEMALTO GEMPROX module. It will encode Mifare cards 1K, 4K, DESFIRE, Type A and B The following presentation is based on Card Studio Pro version 1.0 2
Mifare Encoding using Card Studio Launch Card Studio and select Card Print from the File menu. From the drop box menu, select your printer (Zebra driver- icon, not the ) . The dialogue box will close. Leave the three boxes checked as shown. 3
Mifare Encoding using Card Studio Click on Properties Check the SPOOL port is selected (in the Ports Tab) and, in the Encoders Tab, the card position is Contactless. Click OK when done or see next slide for the Tools Tab. 4
Mifare Encoding using Card Studio In the Tools Tab, you can perform some basic tests like moving the card to the encoding position,.Click Send to perform the command and OK to exit the menu. 5
Mifare Encoding using Card Studio Now select what you wish to perform with the printer: print front, back, both sides, Magnetic Encoding,. Please note Contactless Smart Card MUST be selected. Click on CLOSE, not on OK. 6
Mifare Encoding using Card Studio Select Card Setup from the Card Studio File drop menu and check the Contactless Chip selection. Click OK. 7
Mifare Encoding using Card Studio Click on the Contactless Icon. This will open up the Data Map. Click on Card Setup. 8
Mifare Encoding using Card Studio Select the Gemalto Prox-Module. You may also select the key (A or B) and other parameters. Click on Apply, you will be returned to the Data Map screen (see page 8). 9
Mifare Encoding using Card Studio Now click on Encoding Setup. The Gemalto Prox-Module should be selected. You can test the communication between the PC and the Mifare encoder by clicking on Test Settings. Once completed click Finish. You are returned to the Data Map (see slide 8) 10
Mifare Encoding using Card Studio Select where you wish to encode your data (sector and block) by doubleclicking on one line. 11
Mifare Encoding using Card Studio Select Data to Encode and enter your data. You can specify a Variable Source. Click on Data Placement and select a different location if you wish. Click on OK. You will be returned to the Data Map. Click on Close to go back to the card design screen. 12
Mifare Encoding using Card Studio Click on the Print Icon and click OK (or File/Card Print/OK) . The card will move to the Mifare station and will be encoded. The printer will perform the other operations (printing,.) after a successful Mifare encoding. 13
Encoding error If something goes wrong during the encoding process, the system will re-try three times to encode. Afterwards, the following pop-up screen will appear. Try to solve the issue (another card, re-check all the settings,.) If still unsuccessful, see the next slide for technical support. 14
Reading an encoder card If you experience any issues when trying to encode, you can download the Zebra Test Software and test the functionality of the printer and encoder. You can downloaded it from: http://www.zebra.com/cardpartner/index.php For Technical Support, please use the following contacts: German 49 (0)2159 676870 zebratechDE@zebra.com French 33 (0) 1 53 48 12 74 zebratechFR@zebra.com English 44 (0) 1628 556 225 zebratechUK@zebra.com For further assistance, contact: Zebra Technologies Card Printer Solutions Dukes Meadow Millboard Road, Bourne End Buckinghamshire SL8 5XF, UK T: 44 (0) 1628 556 025 F: 44 (0) 1628 556 001 E: cardts@zebra.com 15
Mifare Encoding using Card Studio 10. Select where you wish to encode your data (sector and block) by double-clicking on one line. Mifare Encoding using Card Studio 11. Select Data to Encode and enter your data. You can specify a Variable Source. Click on Data Placement and select a different location if you wish. Click on OK.
the 3DES key, the MIFARE Ultralight C design shows some differences compared to MIFARE Ultralight design. In order to minimize the impact of chip differences for the customer designs and ease the transition from existing MIFARE Ultralight systems to MIFARE Ultralight C systems, this document highlights the differences between the two products.
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Sync, Studio 3, Studio 4, Studio 5 (and Studio 5 Lx), Studio 64X, Studio 128X, and Studio 64XTC. . document refers to an Opcode Studio 64XTC, but the next couple of pages are a little detour. Please don’t be confused. Your computer has at least one USB port, which looks like this: . If you have a blue G3, the USB ports are on the back.
Automotive EMC test chambers may be designed for more complex test capabilities, such as those involving elements of Advanced Driver Assistance Systems (ADAS), Radio Detection and Ranging (RADAR) and Light Detection and Ranging (LIDAR). Antenna arrays, as well as signal and protocol simulators, may be installed in the chamber to test the performance of these capabilities. This results in a .
