MF1SEP1001DA4/03J Datasheet MF1SEP1031DUD/03V, MF1SEP1001DA4/03J, MF1SEP1031DA4/03J | P4-P6

Product short data sheet

COMPANY PUBLIC

Rev. 3.1 — 16 March 2017

328631 4 of 17

NXP Semiconductors

MF1SEP(H)10x1

MIFARE PLUS SE - Secure contactless smart card IC

6. Block diagram

7. Pinning information

7.1 Smart card contactless module

Fig 1. Block diagram

001aah389

INTERFACE

UART

ISO/IEC

14443A

AES CRYPTO

CO-PROCESSOR

CPU/LOGIC UNIT CRC

EEPROMRAMROM

TRUE RANDOM

NUMBER

GENERATOR

CRYPTO1

SECURITY

SENSORS

POWER ON

RESET

VOLTAGE

REGULATOR

CLOCK

INPUT FILTER

RESET

GENERATOR

Fig 2. Contact assignments for SOT500-2 (MOA4)

Table 3. Bonding pad assignments to smart card contactless module

Contactless interface module MF1SEP(H)10x1DA4/z3

Antenna contacts Symbol Description

LA LA antenna coil connection LA

LB LB antenna coil connection LB

001aaj820

LA LBtop view

Product short data sheet

COMPANY PUBLIC

Rev. 3.1 — 16 March 2017

328631 5 of 17

NXP Semiconductors

MF1SEP(H)10x1

MIFARE PLUS SE - Secure contactless smart card IC

8. Functional description

8.1 Memory organization

The 1 kB EEPROM memory is organized in 16 sectors of 4 blocks

One block consists of 16 bytes.

8.1.1 Manufacturer block

The first data block (block 0) of the first sector (sector 0) contains the PICC manufacturer

data. This block is programmed and write protected at production test.

8.1.2 Data blocks

Sectors 0

to 16

contain 3 blocks each for data storage. The data blocks can be

configured using the access bits as:

• read/write blocks for storing binary data

• value blocks

Value blocks are special counters where the stored value can be manipulated with

specific commands such as MF Increment, MF Decrement and MF Transfer.

A successful mutual authentication is required to allow any data operation.

8.1.2.1 Access conditions

The access conditions for every data block and the sector trailer itself are stored in the

sector trailer of the corresponding sector.

(1) CRYPTO1 Key A in security level 0, 1, 2; plain text access byte in security level 3

Fig 3. Memory organization

aaa-018291

01 42 3 6 7 8 9 12 1310 11 14 15

Byte numbers within a block

Sector Block

Description

315

Access bytes

Sector trailer 15

Data

...

CRYPTO1 Key A

...

314

Access bytes

Sector trailer 14

Access bytes Sector trailer 0

Manufacturer data

CRYPTO1 Key A

CRYPTO1 Key B or Data

(1)

Data

Product short data sheet

COMPANY PUBLIC

Rev. 3.1 — 16 March 2017

328631 6 of 17

NXP Semiconductors

MF1SEP(H)10x1

MIFARE PLUS SE - Secure contactless smart card IC

The access bits control the rights of memory operations using the secret keys A and B.

The access conditions may be altered after authentication with the relevant key and the

current access condition allows this operation.

Furthermore, value blocks are configured using the access bits.

8.1.3 AES keys

AES keys are not shown in the memory map. The keys are stored on top of the other data

and can be updated and used by referencing the so-called Key Number. In security

level 3, anti-tearing is supported for the update of AES keys as well as for the update of

the sector trailer. This anti-tearing mechanism is done by the PICC itself. The EEPROM

stays in a defined status, even if the PICC is removed from the electromagnetic field

during the write operation.

8.1.4 Multi-sector authentication

A new feature has been provided in security level 3 for data which is spread over multiple

sectors to improve transaction performance.

Providing that such sectors are secured with identical keys (key value and key type) only

one authentication is required to read and/or write data from these sectors. There is no

need to re-authenticate when accessing any data within these sectors. Therefore it is

possible to configure a card in such a way that operating with only one authentication is

needed in security level 3 to access all sectors.

8.1.5 Originality function

The originality function is implemented by an AES authentication with the originality key.

The authentication is performed in ISO/IEC 14443-4 protocol layer.

8.2 Card activation and communication protocol

The ISO/IEC 14443-3 anticollision mechanism allows for simultaneous handling of

multiple PICCs in the field. The anticollision algorithm selects each PICC individually and

ensures that execution of a transaction with a selected PICC is performed correctly

without data corruption from other PICCs in the field.

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P17

MF1SEP1001DA4/03J

Mfr. #:

Buy MF1SEP1001DA4/03J

Manufacturer:

NXP Semiconductors

Description:

RFID Transponders Secure Contactless Smart Card IC

Lifecycle:

New from this manufacturer.

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MF1SEP1001DA4/03J

MF1SEP1001DA4/03J

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