HID 2100PG1SV Composite iClass 2K/2 Programmable Credential
When you're deploying iClass access control in environments where durability matters but budget constraints exist, composite credentials offer the right balance. The HID 2100PG1SV delivers programmable iClass 2K/2 technology in a composite card format designed for moderate-wear applications where PVC cards would fail but full composite clamshell protection isn't required.
Key Features
- iClass 2K/2 technology with 16KB (2K bits) of user-programmable memory
- Composite construction provides enhanced durability over standard PVC credentials
- 13.56 MHz contactless smart card technology for fast, reliable reads
- Standard CR80 credit card dimensions for compatibility with existing card programs
- Programmable format allows site-specific encoding and customization
- Compatible with HID iClass readers and multi-technology reader platforms
- Suitable for applications requiring both physical access and logical security integration
Composite credentials bridge the gap between economy PVC cards and premium clamshell designs. The construction method bonds multiple layers of material, creating a card body more resistant to cracking, temperature extremes, and flexing stress than standard PVC while maintaining a thinner profile than clamshell alternatives. For integrators managing mixed-use facilities—corporate offices, healthcare campuses, education environments—this construction type handles daily pocket carry and moderate wear cycles without the premium cost of full clamshell protection.
The 2K/2 memory configuration provides sufficient storage for standard access control applications with room for additional data applications. Program cards to your site's specific format requirements using HID encoding equipment or authorized service providers. The iClass platform's encryption and mutual authentication protect credential data from cloning attempts, while the 13.56 MHz frequency delivers consistent read performance in various mounting conditions. These credentials integrate seamlessly into existing HID ecosystems and support migration paths to mobile credentials or multi-technology readers as security requirements evolve.
