Products | SenseLock EL-GENII


SenseLock EL-GENII

21.00 €

Technical characteristics

Highly secured smart-card
32 and 64 kilobytes of internal memory
Unique serial number (8 bytes)
Hardware accelerated RSA (up to 1024 bits), 3DES, SHA-1
Hardware based random number generator
Internal timer
HID mode without using any additional drivers
Windows, MacOS X and Linux support
All major compilers support
USB versions 1.1, 2.0, 3.0 support
Size (L x W x H): 18 mm x 10 mm x 8 mm
Weight: 2.8 g



SenseLock EL-GENII is a hardware key (dongle), that provides the most advanced techniques of software protection from cracking. Its core is a highly secured smart-card from NXP company, certified at EAL5+ standard, which is very effective in resisting to major attacks such as Eletronic Attack (SPA and DPA), Probe Attack (SiShell), Chip Dissection, Debug Port attack, etc.

Ultra-small size of GENII hardware key model allows to use it without fear of damaging laptop’s USB port or dongle itself.

The main advantage of SenseLock EL dongles against the most of hardware keys is an ability to execute a custom code inside. Those custom functions can be developed using a standard C-language. Large memory allows to create, compile. and execute up to about 10,000 strings of C-language code inside of the dongles. So finally, SenseLock EL acts as a small additional computer, that is highly secured against researching and tampering its content.

SenseLock EL hardware keys allow to use hardware accelerated cryptographic algorithms RSA (up to 1024 bits), 3DES, SHA-1. Also, software developers can compile and use additional algorithms, such as MD5, AES, SHA-2, etc., if it’s required.

24-byte Developer PIN-code is protecting a content of the SenseLock hardware keys from an unauthorized access with 15 maximum re-tries of its bruteforce.

Advanced License Management system and Remote Update system, developed by our company specially for SenseLock EL hardware keys can be used.

All SenseLock EL family hardware keys are fully compatible except real-time clock functions of the RTC model.