



Applications:
✅ Corporate Customization-Electronic employee badges, membership cards, smart access control cards
✅ Consumer Electronics- trackers, Beacon, Fingerprint Smart Card, Find My Air Card Tracker, Digital (Crypto) Hard Wallet, Smart Keychains, mini GPS locators and so on.
✅ Promotional Gifts-Custom-printed designs for low-cost, high-impact branded giveaways
FAQs:
Q1: What is a Fingerprint Smart Card, and how does it improve security?
A: A Fingerprint Smart Card integrates a highly precise capacitive fingerprint sensor and a Secure Element (SE) chip into a standard ISO CR80 card profile. It enforces two-factor authentication (2FA) at the card level: the card will not activate or transmit any RFID/NFC/Contact signals unless the authorized holder's fingerprint is successfully matched on the card. This completely eliminates the security risks of lost, stolen, or borrowed corporate ID badges and payment cards.
Q2: How secure is the biometric data on the fingerprint smart card? Is it compliant with financial standards?
A: Extremely secure. The biometric data undergoes on-card enrollment and verification. The fingerprint template is encrypted and stored exclusively within the card's Secure Element (SE) chip. It never leaves the card and is never transmitted to any external reader or cloud server, fully aligning with EMVCo and CC EAL5+/6+ financial security standards.
Q3: Do fingerprint smart cards require batteries?
A: Passive (no battery): The passive version does not require a battery. It directly obtains energy from the electromagnetic field of NFC and only supplies power during fingerprint verification and transaction moments; No need to charge or replace any components. This version is thinner, more cost-effective, and maintenance free, making it suitable for access control and authentication deployments where most cards interact with fixed card readers.
Active (battery powered): The active version is equipped with a re
chargeable lithium polymer battery embedded in it using our patented cold lamination process. This battery provides power for additional functions that require continuous or independent operation, such as Bluetooth connectivity, real-time data display, or functions that require operation away from the card reader.
Q4: What are the main use cases for fingerprint smart cards?
A: Access control and attendance, identity authentication, all-in-one campus or enterprise cards, and financial payment. Particularly suited to high-security environments — chemical plants, oil and gas facilities, ports, banks, data centers, government agencies, and correctional facilities. Note that all these use cases require a compatible backend system (access control platform, payment system, or identity management software) — the card is the hardware component, not a standalone solution.
Q5: Do you provide systems or development systems?
A: No. We are a hardware manufacturer — we produce the fingerprint smart card itself. The backend system (access control platform, identity management software, payment system, or enrollment application) is outside our scope and needs to be sourced from a system integrator or software vendor. We provide technical documentation and sample cards to support your integration work, but system development and deployment are the responsibility of the customer or their chosen partner.
Q6: What manufacturing process is used to produce the card?
A: We use a patented cold lamination process (patent no. ZL 2016 1 0452484.2) developed in-house. Unlike hot lamination, cold lamination operates at low temperature and pressure, protecting sensitive components — fingerprint sensors, embedded chips, and flexible PCBs — from heat damage during card production. This allows us to embed active electronic components into a standard card form factor without compromising reliability.



Key Features & Benefits:
✅ Ultra-Thin & Flexible – Credit-card thickness (<2mm)
✅ Customizable Integration – Supports NFC, RFID, LEDs, sensors, and embedded ICs (e.g., payment chips).
✅ Cost-Effective Production – No high-temperature or pressure curing
✅ Zero Mold Costs – No expensive injection molds required, no minimum order quantity (MOQ).
✅ Fast Turnaround – From design to mass production in just days, helping you seize market opportunities.
✅ Full Customization – Supports any shape, size, or printed design for branding or creative needs.
✅ Ultra-Portable – Credit-card size or custom dimensions, fits easily in wallets/cardholders.

Applications:
✅ Corporate Customization-Electronic employee badges, membership cards, smart access control cards
✅ Consumer Electronics- trackers, Beacon, Fingerprint Smart Card, Find My Air Card Tracker, Digital (Crypto) Hard Wallet, Smart Keychains, mini GPS locators and so on.
✅ Promotional Gifts-Custom-printed designs for low-cost, high-impact branded giveaways
FAQs:
Q1: What is a Fingerprint Smart Card, and how does it improve security?
A: A Fingerprint Smart Card integrates a highly precise capacitive fingerprint sensor and a Secure Element (SE) chip into a standard ISO CR80 card profile. It enforces two-factor authentication (2FA) at the card level: the card will not activate or transmit any RFID/NFC/Contact signals unless the authorized holder's fingerprint is successfully matched on the card. This completely eliminates the security risks of lost, stolen, or borrowed corporate ID badges and payment cards.
Q2: How secure is the biometric data on the fingerprint smart card? Is it compliant with financial standards?
A: Extremely secure. The biometric data undergoes on-card enrollment and verification. The fingerprint template is encrypted and stored exclusively within the card's Secure Element (SE) chip. It never leaves the card and is never transmitted to any external reader or cloud server, fully aligning with EMVCo and CC EAL5+/6+ financial security standards.
Q3: Do fingerprint smart cards require batteries?
A: Passive (no battery): The passive version does not require a battery. It directly obtains energy from the electromagnetic field of NFC and only supplies power during fingerprint verification and transaction moments; No need to charge or replace any components. This version is thinner, more cost-effective, and maintenance free, making it suitable for access control and authentication deployments where most cards interact with fixed card readers.
Active (battery powered): The active version is equipped with a re
chargeable lithium polymer battery embedded in it using our patented cold lamination process. This battery provides power for additional functions that require continuous or independent operation, such as Bluetooth connectivity, real-time data display, or functions that require operation away from the card reader.
Q4: What are the main use cases for fingerprint smart cards?
A: Access control and attendance, identity authentication, all-in-one campus or enterprise cards, and financial payment. Particularly suited to high-security environments — chemical plants, oil and gas facilities, ports, banks, data centers, government agencies, and correctional facilities. Note that all these use cases require a compatible backend system (access control platform, payment system, or identity management software) — the card is the hardware component, not a standalone solution.
Q5: Do you provide systems or development systems?
A: No. We are a hardware manufacturer — we produce the fingerprint smart card itself. The backend system (access control platform, identity management software, payment system, or enrollment application) is outside our scope and needs to be sourced from a system integrator or software vendor. We provide technical documentation and sample cards to support your integration work, but system development and deployment are the responsibility of the customer or their chosen partner.
Q6: What manufacturing process is used to produce the card?
A: We use a patented cold lamination process (patent no. ZL 2016 1 0452484.2) developed in-house. Unlike hot lamination, cold lamination operates at low temperature and pressure, protecting sensitive components — fingerprint sensors, embedded chips, and flexible PCBs — from heat damage during card production. This allows us to embed active electronic components into a standard card form factor without compromising reliability.