User's Manual
Table Of Contents
- 1. Introduction
- The PN7150 architecture overview
- 2. NCI Overview
- 3. DH interface
- 5. Initialization & Operation configuration
- 6. Reader/Writer Mode
- 6.1 T1T, T2T, MIFARE Ultralight, MIFARE Classic and MIFARE Plus tags
- 6.1.1 Access through the [NCI] Frame RF Interface
- 6.1.2 [PN7150-NCI] extension: TAG-CMD Interface
- 6.1.3 [PN7150-NCI] extension: Payload structure of the TAG-CMD RF Interface
- 6.1.4 [PN7150-NCI] extension: REQs & RSPs rules
- 6.1.5 [PN7150-NCI] extension: List of REQs & RSPs
- 6.1.6 [PN7150-NCI] extension: raw data exchange REQs & RSPs
- 6.1.7 [PN7150-NCI] extension: T2T & MFU REQs & RSPs
- 6.1.8 [PN7150-NCI] extension: MIFARE Classic REQs & RSPs
- 6.1.9 Access through the TAG-CMD RF Interface
- 6.2 T3T tag
- 6.3 T4T & ISO-DEP Tags/Cards
- 6.3.1 Access through the Frame RF Interface
- 6.3.2 Access through the ISO-DEP RF Interface
- 6.3.3 [PN7150-NCI] extension: Presence check Command/Response
- 6.3.4 [PN7150-NCI] extension: S-Block Command/Response
- 6.3.5 [PN7150-NCI] extension: WTX notification
- 6.3.6 [PN7150-NCI] extension: Higher bit rates in Poll NFC-A & NFC-B
- 6.4 [PN7150-NCI] extension: 15693 & I-Code tags
- 6.5 [PN7150-NCI] extension: KOVIO tags
- 6.1 T1T, T2T, MIFARE Ultralight, MIFARE Classic and MIFARE Plus tags
- 7. Card Emulation Mode
- 8. P2P Initiator & Target Mode
- 9. RF Discovery Management
- 9.1 RF Discovery functionalities
- 9.2 NFC FORUM Profile as defined in [NCI]
- 9.3 [PN7150-NCI] extension: additional technologies not yet supported by the NFC FORUM
- 9.4 [PN7150-NCI] extension: Low Power Card Detector (LPCD) Mode
- 9.5 [PN7150-NCI] extension: EMVCo Profile in Poll & Listen Modes
- 9.6 [PN7150-NCI] extension: Power optimization
- 10. Configurations
- 11. Test Mode
- 12. PN7150 Practical approach
U
M10936
P
N7150 User Manual
UM
10936 All information provided in this document is subject to legal disclaimers.
U
ser manual
CO
MPANY PUBLIC
Rev. 2.0 — 6 November 2020
348120
106 of 127
Optional: Poller deselects the card.
End of transaction: Poller switches RF Field OFF
S-Block(DESELECT req)
S-Block(DESELECT re
s)
ISO-DEP RF INTF deactivation
RF_DEACTIVATE_NTF(Discovery,
Link Loss)
RF_FIELD_IN
FO_NTF(0x00)
RF Field OFF
RF_DEACTIVATE_NTF
(Sle
ep Mode, Endpoint_ Request)
NCI RF State Machine moved to
RFST_LISTEN_SLEEP
NCI RF State Machine moved to
RFST_DISCOVERY
Application level: data exchange.
RF_DISCOVER_MAP_RSP
RF_DISCOVER_MAP_CMD
(RF Prot.=ISO-DEP,
Mode=Listen, RF Intf.=ISO-DEP)
DH NFCC
RF_DISCOVER_RSP
Endpoint
RF_IN
TF_ACTIVATED_NTF
(Prot = ISO-DEP, Intf = ISO-DEP Intf.)
NCI RF
N
CI_DATA_MSG(C-APDU_1)
N
CI_DATA_MSG(R-APDU_1)
I-Block(C-APDU_1)
I-Block(R-APDU_1)
N
CI_DATA_MSG(C-APDU_n)
N
CI_DATA_MSG(R-APDU_n)
I-Block(C-APDU_n)
I-Block(R-APDU_n)
RF_DISCOVER_CMD
(NFC_B_PASSIVE_LISTEN_MODE)
RF_SET_LISTEN_MODE_ROUTIN
G_RSP
RF_SET_LISTEN_MODE_ROUTIN
G_CMD
(N
FCEE ID=DH-NFCEE, Prot.=PROTOCOL_ISO-DEP)
CORE_CON
N_CREDITS_NTF
CORE_CON
N_CREDITS_NTF
RF_FIELD_IN
FO_NTF(0x01)
RF Field On
Map ISO-DEP protocol to ISO-DEP
Interface
Fill the Listen Routing Table for
protocol-based routing
Start Discovery
(move to RFST_DISCOVERY)
NFCC informs DH that an RF
Field is detected
NCI RF State Machine moved to
RFST_LISTEN_ACTIVE
Protocol activation : handled
by NFCC
The NFCC converts data to/from DH
into I-Blocks over RF
Activation sequence: driven
by the NFCC
SEN
SB_REQ(AFI) / REQB
SEN
SB_RES(AFI) / ATQB
ATTRIB CMD
ATTRIB RSP
F
ig 50. Card Emulation, NFC-B, ISO-DEP protocol / ISO-DEP Interface