The Single Wire Protocol (SWP) Slave Analog Front End (AFE) is a fully integrated interface intended to connect the UICC (SWP slave) to the NFC chip (SWP master) through a single wire.
Single Wire Protocol (SWP) Slave Analog Front End (AFE) compliant with the ETSI 102.613 standard
Overview
Key Features
- fully integrated Single Wire Protocol (SWP) Slave 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 0.06 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
Maturity
Silicon proven
Availability
Available
Related IPs
- Single Wire Protocol (SWP) Master 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
- Complete measurement analog front end (AFE) IP for single phase power metering
- Complete measurement analog front end (AFE) IP for single phase power metering