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
83 of 127
9.
6.1 CORE_SET_POWER_MODE Command/Response
!
T
he Standby Mode is enabled by default. Given the very strong impact on the
power consumption, disabling the Standby Mode should be restricted to debug
sessions.
Table 78. CORE_SET_POWER_MODE_CMD
G
ID
O
ID
Numbers of
p
arameter(s)
D
escription
1111b 0x
00 1 Command to request the PN7150 to enable/disable the Standby Mode
Table 79. CORE_SET_POWER_MODE_CMD parameter
Payload Field(s) Length Value/Description
M
ode 1 Octet
0x
00 Standby Mode disabled
0x
01 Standby Mode enabled
0x03-0xFF RFU
Table 80. CORE_SET_POWER_MODE_RSP
G
ID
O
ID
N
umbers of
parameter(s)
D
escription
1111b 0x
00 1 Response to inform the DH of the status of the CORE_SET_POWER_MODE_CMD.
T
able 81. CORE_SET_POWER_MODE_RSP parameter
P
ayload Field(s)
L
ength
V
alue/Description
Status 1 Octet
0x00 STATUS_OK
0x
06 STATUS_SEMANTIC_ERROR
0x
09 STATUS_INVALID_PARAM
Others Forbidden
9.
6.2 Standby wake-up
T
he PN7150 wakes-up from standby when one of the following event occurs:
- Regular polling-loop starts. When the DH has served the PN7150 with a
NCI_RF_DISCOVER_CMD command, the PN7150 enters into the
standby mode and automatically leave the low power mode after the period
defined by TOTAL_DURATION.
- RF level detector triggered. An external field has been introduced in the
NFC volume during the standby period of the polling loop and at least one
listen phase has been requested by the NCI_DISCOVER_CMD.
- Host interface activity detected. See →3.3 section.