PRH601HL

Multi-frequency integrated reader solution


Quick ordering

DistributorIn Stock
OR:  

Introduction

The PRH601 is an integrated RF Identification reader module for contactless communication at 13.56 MHz and 125 kHz. It implements an additional 32-bit ARM CortexM0 microcontroller core.

The package contains three dies:

  1. LPC1227FBD48/301
  2. HTRC11001T/02EE
  3. CLRC66301HN1

Not all pins of the LPC1227 specified in the datasheet are available at the reader module.

The devices does not implement any interconnection inside the package. This enables access to all signals during system development. The device can be replaced by a integrated reader module PRH601 if no 125 kHz functionality is required. A re-design of the PCB is not required in this case.

General description

HTRC110

The HITAG Reader Chip HTRC110 is intended for use with transponders, which are based on the HITAG silicon (HT1ICS3002x or HT2ICS2002x). In addition the IC supports other 125 kHz transponder types using amplitude modulation for the write operation and AM/PM for the read operation. The receiver parameters (gain factors, filter cutoff frequencies) can be optimized to system and transponder requirements.

The HTRC110 is designed for easy integration into RF-identification readers. State-of-the-art technology allows almost complete integration of the necessary building blocks. A powerful antenna driver/modulator together with a low-noise adaptive sampling time demodulator, programmable filters/amplifier and digitizer build the complete transceiver unit, required to design high-performance readers. A three-pin microcontroller interface is employed for programming the HTRC110 as well as for the bidirectional communication with the transponders. The three-wire interface can be changed into a two-wire interface by connecting the data input and the data output. Tolerance dependent zero amplitude modulation caused severe problems in envelope detector systems, resulting in the need of very low tolerance reader antennas. These problems are solved by the new Adaptive Sampling Time technique (AST).

CLRC663

The CLRC663 is a highly integrated transceiver IC for contactless communication at 13.56 MHz. This transceiver IC utilizes an outstanding modulation and demodulation concept completely integrated for different kinds of contactless communication methods and protocols at 13.56 MHz.

The CLRC663 transceiver ICs support following different operating modes:

  • Reader/Writer mode supporting ISO/IEC 14443A/MIFARE
  • Reader/Writer mode supporting ISO/IEC 14443B
  • Reader/Writer mode supporting FeliCa scheme
  • Reader/Writer mode supporting ISO/IEC 15693
  • Reader/Writer mode supportingI ICode EPC UID/ EPC OTP
  • Reader/Writer mode supporting ISO/IEC 18000-3 Mode 3
  • NFC P2P Initiator

The CLRC663 internal transmitter is able to drive a reader/writer antenna designed to communicate with ISO/IEC 14443A/MIFARE cards and transponders without additional active circuitry. The receiver module provides a robust and efficient implementation for demodulation and decoding signals from ISO 14443A/MIFARE compatible cards and transponders. The digital module manages the complete ISO 14443A framing and error detection (parity and CRC) functionality.The CLRC663 supports MIFARE 1K, MIFARE 4K, MIFARE Ultralight, MIFARE, Ultralight C, MIFARE PLUS and MIFARE DESFire products. The CLRC663 supports contactless communication and uses MIFARE higher transfer speeds up to 848 kBd in both directions.

The CLRC663 supports all layers of the ISO/IEC 14443B reader/writer communication scheme, given correct implementation of additional components, like oscillator, power supply, coil etc. and provided that standardised protocols, e.g. like ISO/IEC 14443-4 and/or ISO/IEC 14443B anticollision are correctly implemented. The use of this NXP IC according to ISO/IEC 14443B might infringe third party patent rights. A purchaser of this NXP IC has to take care for appropriate third party patent licenses.

Enabled in Reader/Writer mode for FeliCa, the CLRC663 transceiver IC supports the FeliCa communication scheme. The receiver part provides a robust and efficient implementation of the demodulation and decoding circuitry for FeliCa coded signals. The digital part handles the FeliCa framing and error detection like CRC. The CLRC663 supports contactless communication using FeliCa Higher transfer speeds up to 424 kbit/s in both directions. The CLRC663 supports vicinity protocoll according ISO/IEC15693, EPC UID and ISO/IEC 18000-3 mode 3. The complete vicinity product family of NXP is supported and enable a readability for mid-ranger reader applications.

The following host interfaces are provided:

  • Serial Peripheral Interface (SPI)
  • Serial UART (similar to RS232 with voltage levels dependent on pin voltage supply)
  • I²C-bus interface (two version are implemented: I2C and I2CL)

LPC1227

The LPC1227 are ARM Cortex-M0 based microcontrollers for embedded applications featuring a high level of integration and low power consumption. The ARM Cortex-M0 is a next generation core that offers system enhancements such as enhanced debug features and a higher level of support block integration. In addition to the ARM Cortex-M0, the LPC1X features an event handler API to limit the interrupt load of the ARM Cortex-M0 CPU and to allow for additional power-savings by off-loading event handling from the main CPU.

The LPC1227 operates at CPU frequencies of up to 33 MHz and include up to 128 kB of flash memory and 8 kB of data memory.

Not all connnections of the LPC1227 product are implemented by the PRH600.

Features and benefits

  • The PRH601 is integrating multiple functions in a single small formfactor package
  • Reduced PCB size for development of systems with small physical dimensions
  • Multi frequence reader support available in single package
  • Integrated microcontroller allows implementation of customer firmware

Applications

  • Small formfactor access systems
  • Industrial devices with high RF performance requirements
  • Multi frequency applications with 125 kHz and 13.56 MHz support
All information on this product information page is subject to the subsequent disclaimers:
Go to the parametric search
Parametric search

Demo boards

PREV601PREV601

Board implements a PRH601 including matched antenna for 13.56MHz


Parametrics of this product

Type numberHost interfacesHost interface supply voltage [typ] (V)RF functionalityRF protocolsRF driver supply voltage [typ] (V)RF driver current current [max] (mA)Supported standardsRead distance [type] (mm)Tamb (Cel)No of pinsPackage name
PRH601HLI2C; SPI3.3 - 5.0NFC Controller solutionISO/IEC 14443A; ISO/IEC 14443B; ISO/IEC 15693; FeliCa; ICODE EPC UID; EPC OTP; ISO/IEC 18000-3 mode 3; EPC Class-1 HF; ISO/IEC 18092 Passive Initiator; MIFARE classic; 125 KHz HITAG;3.3 - 5.0200.0ISO/IEC 14443A; ISO/IEC 14443B; ISO/IEC 15693; ISO/IEC 18000-3 mode 3; ISO/IEC 18092 Passive Initiator; EMVCo compliance150-25~70100LQFP100

Similar products

Package

Type numberPackageOutline versionReflow-/Wave solderingPackingProduct statusMarkingOrderable part number, (Ordering code (12NC))
PRH601HL/C1LQFP100
(SOT407-1)
sot407-1_posot407-1_fr
HTQFP-HLQFP-LQFP-MSQFP-WAVE
Tray Dry Pack, Bakeable, MultipleActiveStandard MarkingPRH601HL/C1,557
( 9352 985 83557 )

Quality, reliability & chemical content

Type numberOrderable part numberChemical contentRoHS / RHFLeadfree conversion dateMSLMSL LF
PRH601HL/C1PRH601HL/C1,557PRH601HL/C1Always Pb-free33
Quality and reliability disclaimer

Quality and reliability disclaimer

Important Legal Notice on the product/generic quality information, No Warranty

NXP Semiconductors is providing this data for your convenience only. Please note however that NO WARRANTY, REPRESENTATION, GUARANTEE OR LEGALLY BINDING PRODUCT DESCRIPTION is provided by publishing this informational data, nor does NXP Semiconductors acknowledge or accept any liability related thereto. The documentation and data on NXP Semiconductors products can be found in the data sheets as officially published by NXP Semiconductors. For all purchase of products from NXP Semiconductors the NXP Semiconductors' General Terms and Conditions of Commercial Sale will apply.

NXP SEMICONDUCTORS PROVIDES THE DATA HEREUNDER “AS IS” WITHOUT WARRANTY WHATSOEVER. NXP SEMICONDUCTORS DOES NOT WARRANT OR REPRESENT THAT ANY DATA PROVIDED ON THIS WEBSITE IS CORRECT OR FIT FOR A PARTICULAR PURPOSE WHATSOEVER. IT IS PROVIDED WITHOUT ANY WARRANTY WHATSOEVER, WHETHER EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY, COMPLETENESS NONINFRINGEMENT OF INTELLECTUAL PROPERTY OR OTHERWISE AND MAY BE CHANGED, MODIFIED OR DELETED BY NXP SEMICONDUCTORS AT ANY TIME.

Any use of the data provided hereunder is at your own risk.

IN NO EVENT SHALL NXP SEMICONDUCTORS, BE LIABLE FOR ANY DIRECT, SPECIAL, INDIRECT, CONSEQUENTIAL, PUNITIVE, OR INCIDENTAL DAMAGES (INCLUDING WITHOUT LIMITATION DAMAGES FOR LOSS OF BUSINESS, BUSINESS INTERRUPTION, LOSS OF USE, LOSS OF DATA OR INFORMATION, AND THE LIKE) ARISING OUT OF THE USE OF THE DATA, WHETHER OR NOT BASED ON TORT (INCLUDING NEGLIGENCE), STRICT LIABILITY, BREACH OF CONTRACT, BREACH OF WARRANTY OR ANY OTHER THEORY, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. NOTWITHSTANDING ANY DAMAGES THAT YOU MIGHT INCUR FOR ANY REASON WHATSOEVER (INCLUDING, WITHOUT LIMITATION, ALL DAMAGES REFERENCED ABOVE AND ALL GENERAL DAMAGES), THE ENTIRE LIABILITY OF NXP SEMICONDUCTORS, AND YOUR EXCLUSIVE REMEDY FOR ALL OF THE FOREGOING SHALL BE LIMITED TO ACTUAL DAMAGES INCURRED BY YOU BASED ON REASONABLE RELIANCE UP TO ONE DOLLARS (US$1.00). THE FOREGOING LIMITATIONS, EXCLUSIONS AND DISCLAIMERS SHALL APPLY TO THE MAXIMUM EXTENT PERMITTED BY APPLICABLE LAW, EVEN IF ANY REMEDY FAILS OF ITS ESSENTIAL PURPOSE.

Your use of this data, and all consequences of such use, is solely your responsibility. You must perform sufficient engineering and additional qualification testing in order to properly evaluate your application and determine whether a candidate NXP Semiconductors device is suitable for use in that application.

NXP Semiconductors' products are specifically designed and manufactured to be used within the electrical, thermal, mechanical and other parameters set forth in NXP Semiconductors' data sheets. Quality and reliability data provided by NXP Semiconductors, such as MTBF, MSL and FIT, is intended to be a non-binding estimate of product performance based upon diffusion process, history only. It does not imply that any performance levels reflected in such data can be met if the product is operated outside the conditions expressly stated in the latest published data sheet for a device or in your application.

The RoHS data provided hereunder is preliminary and non binding for NXP Semiconductors. NXP Semiconductors does not accept any liability related to this data.

NXP Semiconductors products are not designed, authorized or warranted to be suitable for use in medical, military, aircraft, space or life support equipment, nor in applications where failure or malfunction of an NXP Semiconductors product can reasonably be expected to result in personal injury, death or severe property or environmental damage nor for any other use that is not explicitly agreed between the parties. NXP Semiconductors accepts no liability for inclusion and/or use of NXP Semiconductors products in such equipment or applications and therefore such inclusion and/or use is at the customer's own risk.

Any use of NXP Semiconductors' products beyond the scope defined in the current NXP Semiconductors' data sheet voids all warranty responsibility of NXP Semiconductors with respect to such devices, and also voids all responsibility of NXP Semiconductors with respect to any applications assistance, product design, software performance or services of any kind that were or may have been performed in connection with the sale of any such devices.

Further, resale of NXP Semiconductors' products or services with statements different from or beyond the parameters stated by NXP Semiconductors for that product in official NXP Semiconductors data sheets, or without the warnings or instructions provided by NXP Semiconductors, voids all express and any implied warranties for the associated NXP Semiconductors product or service, and is an unfair and deceptive business practice.

Documentation for this product

File nameTitleTypeFormatDate
PRH601Integrated Reader ModuleData sheetpdf2012-11-14
AN98080Read/write devices based on the HITAG read/write IC HTRC110Application notepdf2010-04-08
AN11019CLRC663, MFRC630, MFRC631, SLRC610 Antenna Design GuideApplication notepdf2013-10-24
AN11022CLRC663 Quickstart GuideApplication notepdf2012-07-13
AN11021CLRC663, MFRC631, MFRC630, SLRC610 Software Design Guide for NXPRDLibApplication notepdf2013-10-24
AN11145CLRC663, MFRC630, MFRC631, SLRC610 PC-Serial RS232 and low power card detection Quick Start GuideApplication notepdf2013-10-24
AN11281Quick Start Up Guide PREV601 Demo BoardApplication notepdf2013-11-12
AN10365Surface mount reflow solderingApplication notepdf2013-01-21
939775017138Next-generation multiprotocol contactless reader IC (CLRC663 only)Leafletpdf2011-11-14
939775017290The next generation of multiprotocol contactless proximity reader ICsLeafletpdf2012-08-28
939775017325Highly integrated RFID reader modules, PRH601 and PR601Leafletpdf2012-09-19
AN11246_239810CLRC663, MFRC631, MFRC630, CLRC610 Directly Matched Antenna design - advanced userOther typezip2012-08-28
AN11020_206110Matching Calculations CLRC663, MFRC631, MFRC630, SLRC610Other typezip2012-08-28
rc110lb6Control library HTRC110Softwarezip2010-08-25
210910CLRC663 redboard scriptsSoftwarezip2011-12-09
200312NXP Reader Library version 2.1 with Visual C++ projectSoftwarezip2012-12-11
UM10441LPC1224/25/26/27 User manualUser manualpdf2014-05-28
HTQFP-HLQFP-LQFP-MSQFP-WAVEFootprint for wave solderingWave solderingpdf2009-10-08
sot407-1_poplastic low profile quad flat package; 100 leads; body 14 x 14 x 1.4 mmOutline drawingpdf2009-10-08
sot407-1_frFootprint for reflow soldering SOT407-1Reflow solderingpdf2009-10-08

Ordering & availability

Type numberOrdering code (12NC)Orderable part numberRegionDistributorIn stockOrder quantityInventory dateBuy onlineSamples
PRH601HL/C19352 985 83557PRH601HL/C1,557NAAvnet Express505112/19/2014Buy online 
   NADigiKey45045012/19/2014Buy online 
   EUFarnell Europe25119/12/2014Buy online 

Sample

Sample orders normally take 2-4 days for delivery.
If you do not have a direct account with NXP our network of global and regional distributors is available and equipped to support you with NXP samples. As a NXP customer you also have the option to order samples via our sales organisation.

Technical support

Do you want to ask technical questions to an NXP expert?
Please select one of the following options:

Find answers to your design questions on this page. If available you can find information in our NXP Support Community or you can find NXP models, Demo boards and Design tools.

Software

TitleTypeDate
Control library HTRC110Software2010-08-25
CLRC663 redboard scriptsSoftware2011-12-09
NXP Reader Library version 2.1 with Visual C++ projectSoftware2012-12-11

Frequently asked questions and Community discussions

The Frequently asked questions are answers provided by NXP technical experts. The discussions are between users of the Community, these can be NXP technical experts, but also other users.

Please wait. Loading data...


No items available, please go to the Community to engage in a new discussion.

Disclaimer All Community items are matched using search logic, so not all results may be equally relevant.
Any opinions, advice, statements or other information in the discussions posted or transmitted by any third party are the responsibility of the author of that message and not of NXP.

{"subtitle":"","category":[],"basictype":["PRH601HL"]}

Demo boards

PREV601PREV601

Board implements a PRH601 including matched antenna for 13.56MHz

How to search?

Already registered to MyNXP? or Register

Feedback

Restricted Document

You are accessing a password protected document.
Please choose an option below

Fill in your name, company and e-mail address and you will receive an e-mail with a username and password for this restricted document.

First name*

Last name*

Company*

E-mail*

Comments

Leave blank

Fields with an * are required

Print password request form:

Before we can grant you access to our confidential documents you are required to fill in, print and sign the password request form by which you comply with the NXP Non-disclosure agreement (NDA). Please email or fax the signed form to the email-address or fax-number specified on the form. After approval you will receive username and password via email. In case you already signed an NDA with NXP and already have username and password, you can skip this step.

Open document:

If you have received the username and password, you can open the document by clicking on the "open document" link. You will be prompted for username and password. After you fill in the username and password the download will start.

Forgot your password:

In case you forgot your password you can click on the "forgot your password" link to retrieve your password. Please complete the small form with your personal details and your request will be sent to NXP. You will receive an answer with your password shortly.

Request secure documentation

Fill in your name, company and e-mail address and you will receive an e-mail with a username and password for this secure document.

First name*

Last name*

Company*

E-mail*

Comments

Leave blank

Fields with an * are required

Datasheet confidential

Fill in your details and you will be contacted

First name*

Last name*

Company*

Country*

Telephone number*

E-mail*

Leave blank

Fields with an * are required

Your e-mail address will only be used to send the datasheet and will not be used for any other purposes.

No full datasheet available

Fill in your details to receive notification when the datasheet becomes available

First name*

Last name*

Company*

E-mail*

Leave blank

Fields with an * are required.

Your email address will only be used to send the datasheet and will not be used for any other purposes.