Smart cards can be divided into storage cards and microprocessor cards, as well as contact cards, contactless cards and dual interface cards, depending on the type of loaded chip and information and communication methods.
In general, for a smart card applied to a PKI application, a hardware true random number generator, an RSA coprocessor, and an RSA operation can be implemented in hardware. In addition, cryptographic algorithms such as DES and SHA-1 are also provided to ensure that key pairs are generated within the hardware and that addition and decryption operations are performed within the hardware.
From the perspective of the security features of smart card hardware, various security measures have been considered in chip design and manufacturing, such as preventing others from modifying data, etc.; the design of the chip's operating system (COS) has taken various forms in smart card data communications. Security measures. In the above security measures, various security algorithms, data encryption and other measures with extremely high strength have been adopted. In the application, various security measures such as user identification including biometric identification, user PIN code authentication, and interactive authentication of smart card and smart card reading and writing devices are adopted.
Any product related to security has the possibility of being attacked. Smart cards are no exception. For smart cards, there are several common attacks:
Physical tamper: Think of ways to expose the integrated circuit in the card, attach it to the surface of the chip with a microprobe, and directly read the contents of the memory.
Clock jitter: Let the clock work in the normal frequency range, but suddenly inject high-frequency pulses within a precisely calculated time interval, causing the processor to lose one or two instructions.
Over-range voltage detection: Similar to the over-range clock frequency detection, the processor is erroneous by adjusting the voltage.
For the above attack methods, smart card manufacturers have adopted a series of preventive measures: such as bus layering, flattening the chip, balancing power consumption, and random instruction redundancy.
Smart cards have been applied to banking, telecommunications, transportation, social insurance, and e-commerce. IC cards, financial IC cards, social insurance cards, and SIM cards in mobile phones all fall into the category of smart cards.
Ultra Plantâ„¢ Grow Light offers One Chip Technology aimed to meet your indoor growing expectation such as improve plants' quality, increase yield, or better the margin, etc., all for helping you realize a higher return on your crops.
Ultra Plantâ„¢ Grow Light is combined our advanced All-In-One technology with patented optical design and customized light full spectrum supported from our experienced LED engineers, plant specialists and other partners working on horticulture.
From Ultra Plantâ„¢ APP, you are able to schedule the growing process including photoperiod, brightness and spectral in advance. The lighting system will help you grow smarter, easier and better.
Ultra Plantâ„¢ is the most versatile horticultural grow lighting fixture for indoor plants with flexible full spectrum, brightness control and uniform, wider light distribution, suitable for top lighting of all types of crops. No matter it applies to anywhere for any crop, Ultra Plantâ„¢ can do perfect work for you.
Uv Grow Light,Uv Light For Plants,Uv Lamp For Plants,Uv Grow Lights For Plants
Feton Corporation , https://www.ultraplantgrowlights.com