MFRC53101T/0FE,112 NXP Semiconductors, MFRC53101T/0FE,112 Datasheet - Page 99

MFRC53101T/0FE,112

Manufacturer Part Number

MFRC53101T/0FE,112

Description

IC MIFARE HS READER 32-SOIC

Manufacturer

NXP Semiconductors

Series

MIFARE®r

Datasheets

1.MFRC53101T0FE112.pdf (14 pages)

2.MFRC53101T0FE112.pdf (116 pages)

Specifications of MFRC53101T/0FE,112

Rf Type

Read Only

Frequency

13.56MHz

Features

ISO14443-A, ISO14443-B, ISO15693

Package / Case

32-SOIC (0.300", 7.50mm Width)

Product

RFID Readers

Operating Temperature Range

- 25 C to + 85 C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Other names

568-2224-5
935269691112
MFRC531
MFRC53101TD

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

MFRC53101T/0FE,112

Manufacturer:

NXP/恩智浦

Quantity:

20 000

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NXP Semiconductors

MFRC531_34

Product data sheet

PUBLIC

15.1.2.1 EMC low-pass filter

15.1.2.2 Antenna matching

15.1.2 Circuit description

The matching circuit consists of an EMC low-pass filter (L0 and C0), matching circuitry

(C1 and C2n), a receiver circuit (R1, R2, C3 and C4) and the antenna itself.

Refer to the following application notes for more detailed information about designing and

tuning an antenna.

The MIFARE system operates at a frequency of 13.56 MHz. This frequency is generated

by a quartz oscillator to clock the MFRC531. It is also the basis for driving the antenna

using the 13.56 MHz energy carrier. This not only causes power emissions at 13.56 MHz,

it also emits power at higher harmonics. International EMC regulations define the

amplitude of the emitted power over a broad frequency range. To meet these regulations,

appropriate filtering of the output signal is required.

A multilayer board is recommended to implement a low-pass filter as shown in

The low-pass filter consists of the components L0 and C0. The recommended values are

given in Application notes MICORE reader IC family; Directly Matched Antenna Design

Ref. 1

Remark: To achieve best performance, all components must be at least equal in quality to

those recommended.

Remark: The layout has a major influence on the overall performance of the filter.

Due to the impedance transformation of the low-pass filter, the antenna coil has to be

matched to a given impedance. The matching elements C1 and C2n can be estimated

and have to be fine tuned depending on the design of the antenna coil.

The correct impedance matching is important to ensure optimum performance. The

overall quality factor has to be considered to guarantee a proper ISO/IEC 14443 A and

ISO/IEC 14443 B communication schemes. Environmental influences have to considered

and common EMC design rules.

Refer to Application notes MICORE reader IC family; Directly Matched Antenna Design

Ref. 1

Remark: Do not exceed the current limits (I

destroyed.

Remark: The overall 13.56 MHz RFID proximity antenna design in combination with the

MFRC531 IC does not require any specialist RF knowledge. However, all relevant

parameters have to be considered to guarantee optimum performance and international

EMC compliance.

•

MICORE reader IC family; Directly Matched Antenna Design

MIFARE (14443 A) 13.56 MHz RFID Proximity Antennas

and MIFARE (14443 A) 13.56 MHz RFID Proximity Antennas

Rev. 3.4 — 26 January 2010

056634

DD(TVDD)

), otherwise the chip might be

Ref.

ISO/IEC 14443 reader IC

Ref. 1

Ref.

Ref. 2

MFRC531

for details.

Figure

99 of 116

24.

MFRC53101T/0FE,112 NXP Semiconductors, MFRC53101T/0FE,112 Datasheet - Page 99

MFRC53101T/0FE,112

Specifications of MFRC53101T/0FE,112

Available stocks

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