The Single Wire Protocol (SWP) Master Analog Front End (AFE) is a fully integrated interface intended to connect the NFC chip (SWP master) to the UICC (SWP slave) through a single wire.
Single Wire Protocol (SWP) Master Analog Front End (AFE) compliant with the ETSI 102.613 standard
Overview
Key Features
- fully integrated Single Wire Protocol (SWP) Master Analog Front End (AFE)
- fully compliant with the ETSI TS 102 613 standard
- operating junction temperature range: -40°C to +125°C
- silicon proven in a 130 nm CMOS process
- characteristics of a 130 nm implementation: typical operating current consumption smaller than 100 µA; typical standby current consumption smaller than 1 µA; silicon area (including a 80 µm x 80 µm pad) smaller than 0.03 mm²
- straightforward integration through a standard interface (customized on request)
- digital controller available separately
Benefits
- ETSI TS 102 613 compliant
- Low power architecture
- Small silicon area
- Straightforward integration
- Silicon proven
Deliverables
- GDSII stream and layer map file
- Library Exchange Format (LEF) file
- Circuit Description Language (CDL) netlist
- Liberty Timing File (.lib)
- design specification
Technical Specifications
Short description
Single Wire Protocol (SWP) Master Analog Front End (AFE) compliant with the ETSI 102.613 standard
Vendor
Vendor Name
Maturity
Silicon proven
Availability
Available
Related IPs
- Single Wire Protocol (SWP) Slave Analog Front End (AFE) compliant with the ETSI 102.613 standard
- Single Wire Protocol (SWP) slave digital controller compliant with the ETSI 102.613 standard
- ISO/IEC 14443 type A/B Analog Front End (AFE) compliant with the NFC standards
- ISO/IEC 14443 type A/B dual-interface Analog Front End (AFE) compliant with the NFC standards
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