all | frequencies |
|
|
|
|
|
exhibits | applications |
---|---|---|---|---|---|---|---|---|
manuals | photos | label |
app s | submitted / available | |||||||
---|---|---|---|---|---|---|---|---|
1 |
|
User Manual 1 | Users Manual | 4.10 MiB | April 03 2014 | |||
1 |
|
User Manual 2 | Users Manual | 4.32 MiB | April 03 2014 | |||
1 |
|
Internal Photo | Internal Photos | 56.71 KiB | April 03 2014 | |||
1 |
|
External Photo | External Photos | 48.72 KiB | April 03 2014 | |||
1 |
|
Label and Location | ID Label/Location Info | 79.27 KiB | April 03 2014 | |||
1 | Cover Letter(s) | April 03 2014 | ||||||
1 | Cover Letter(s) | April 03 2014 | ||||||
1 | Test Report | April 03 2014 | ||||||
1 | Cover Letter(s) | April 03 2014 | ||||||
1 | Cover Letter(s) | April 03 2014 | ||||||
1 | Test Setup Photos | April 03 2014 |
1 | User Manual 1 | Users Manual | 4.10 MiB | April 03 2014 |
SON'Y. Felica Reader/Writer Module RC-S620/S Product Specifications Version 1.1 No. Mxxx-Exx-xx RC-S620/S Product Specifications FeliCa Introduction This document describes the major features and specifications of Reader/Writer module of Sony, RC-S620/S. For the purpose of this document, the terms below denote the products or equipment described to the right. Card : Acontactless IC card. Reader/Writer : | A device used to read and write contactless IC cards, tags and devices. Controller : An external computer or an equivalent device that is directly connected to a Reader/Writer via a specific cable. User applications can use some libraries including FeliCa libraries to access RC-S620/S. API specifications for these libraries vary depending on the products used, as well as the intended usage of the system, making it necessary to see the appropriate document for each. Model name Description Usage Reference document RC-S620/S UART for controller For embedded device SDK for NFC Reference Implementation interfacing Basic Suite for RC-S956 API Specifications NOTE1 A driver for embedded devices, as well as FeliCa libraries, must be developed by yourself. For this purpose, the SDK for NFC Reference Implementation Basic Suite for RC-S956 is optionally available. NOTE2 For beginning the services using specific card brands, it is necessary to obtain permission from companies which hold the right to use by yourself. NOTE3 Please note that Business Opportunity Loss by failure or other causes cannot becompensated irrespective of the warranty period. The prior check of operation in your system is strongly recommended. e FeliCais a contactless IC card technology developed by Sony Corporation. e FeliCa is a trademark of Sony Corporation. e Allnames of companies and products contained herein are trademarks or registered trademarks of the respective companies. e No part of this document may be copied, or reproduced in any form, without the prior consent of Sony Corporation. e Information in this document is subject to change without notice. e Sony Corporation assumes no liability for damages arising from, or in connection with, the use of this document. Page 3 RC-S620/S Product Specifications F e | i C a Safety Information and Caution WARNING To reduce the risk of fire or electric shock, do not expose this apparatus to rain or moisture. To avoid electrical shock, do not open the cabinet. Refer servicing to qualified personnel only. Mode: RC-S620/S_ oc: 3.3/5v === 4-537-570-01 CAN ICES-3 B/NMB-3 B MSIP-CRI-SOK-RC-S620S FCC Se aN | |
1:409B-RCS620S &C [C Exeece000x eon Sony Corporation Made in Japan / Fabriqu au Japon Contents of spec indication label For the customers in USA This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. WARNING You are cautioned that any changes or modifications not expressly approved in this manual could void your authority to operate this equipment. Note: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
-Reorient or relocate the receiving antenna.
-Increase the separation between the equipment and receiver.
-Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
-Consult the dealer or an experienced radio/TV technician for help. Page 4 RC-8620/S Product Specifications FeliCa For the customers in Canada This Class B digital apparatus complies with Canadian ICES-003. This device complies with Industry Canada licence-exempt RSS standard(s). Operation is subject to the following two conditions: (1) this device may not cause interference. and (2) this device must accept any interference, including interference that may cause undesired operation of the device. The term IC: before the radio certification number only signifies that Industry Canada technical specifications were met. Pour les clients au Canada Cet appareil numrique de la classe B est conforme a la norme NMB-003 du Canada. Le prsent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. Lutilisation doit repondre aux deux conditions suivantes: (1) ce matriel ne doit pas provoquer de brouillage et (2) il doit accepter tout brouillage, mme celui qui est susceptible daffecter son fonctionnement. La mention IC: devant le numro de certification/ homologation signifie uniquement que les spcifications techniques d'Industrie Canada sont remplies. For the customers in Europe Hereby, Sony Corporation, declares that this RC-S620/S is in compliance with the essential requirements and other relevant provisions of Directive 1999/5/EC. For details, please access the following URL:
http:/www.compliance.sony.de/
Ce For use in following areas: residential, commercial and light industrial. This product has been tested and found compliant with the limits set out in the EMC Directive for using connection cables not longer than 3 meters (9.8 feet). Emissions from this inductive device could cause interference to nearby receivers of other radio services. The manufacturer of this product is Sony Corporation, 1-7-1 Konan, Minato-ku, Tokyo, Japan The Authorized Representative for EMC and product safety is Sony Deutschland GmbH, Hedelfinger Strasse 61, 70327 Stuttgart, Germany Page 5 RC-S620/S Product Specifications For the customers in Korea are FAME 8 S ABSA WSde] VS ASS: MSIP-CRI-SOK-RC-S620S BE EE BB: aU ste) 778A: RFID/USN & 47447)7](13.56MHz WA Ae 7)7)) For the customers in Singapore Complies with IDA Standards DB00353 For the customers in Taiwan BoM AAI SUROE Bt ZAR RR, AR EET, ZA), axtnt ZAP RI BE. A+ es Pa EE,
(KRHA RAR AVERMLER RA, EE FES 77 3 UF HUA AVSIB fa, TR BLE ESR ZAR AR BB ITD A TE. ER BA ava Page 6 ee BERR HS ZT FARR, MESLBN SE BA, DI Felica KY ERE SA bee a AE RC-S620/S Product Specifications FeliCa Contents 1 Key functionsiand features vesciisiccisiciscesiec score ena nerincerccunevineevesesssnceetsenncursnuenveresvenvesseusnsaranaeriv 9 2 Hardware specifications.. 2.1 Major specifications... 2.1.1 FeliCa communication 2.1.2 ISO/IEC 14443 communication ... 2.2 Interface 2.2.1 Connector .. 2.2.2 Pin assignment. 2.3 UART communication specifications . 2.4 Electrical specifications . 2.4.1 Absolute maximum rating... 2.4.2 Electrical characteristics . 2.5 OUhers...... ee ceeeseseeeeeeeeees 2.6 Reliability specifications .... 2.7 External dimensions... 2.8 Label specifications... 2.8.1 Position of spec indication label .. 2.8.2 Contents of spec indication label. 2.9 RF performance and the use of magnetic sheet. a 3 Software specifications...... 20 3.1 Communication packet.. 3.1.1 Normal frame....... 3.1.2 Extended frame ... 3.1.3 ACK frame ........ 3.2 Communication protocol 3.2.1 Data link level... 3.2.2 Application level. 3.3 Mode transition........... 25 3.3.1 Concept of operating mode... 25 3.3.2 Overview of individual modes 25 3:4. COMMANG liSthesscccccvecseoecvereesennoonries wat 4 Packing specifications .... 4.1 Packing details.............. 4.2 Contents of bar code label 4.3 Contents of model label ....... 5 Precautions ......ccceeeeeee 5.1 Handling precautions 5.2 Notes on external appearance =
Appendix A About installation..........cccsccscssssseneeeeseeescseseesnsneeneeeessesnsenseesensesnacanseesenseeneeeaseeseaes 32 A.1 Installation requirements for RC- S62 : 8 A.2 Reduction of the impact of metal...... Appendix B About temperature rise ... a B.1 The verification method ANd MEASUFE .........e eee eeseeeeseeseeseseseesseeesesseaseeresseneesenessenecaeneseeeseeneretienetsee Appendix C About interface cable ...... C.1 Terminal requirements of FFC/FPC Page 7 RC-S620/S Product Specifications Felica
(Blank page) Page 8 RC-S620/S Product Specifications FeliCoa 1 Key functions and features RC-S620/S (hereinafter called the module) writes and reads data to and from FeliCa-enabled contactless IC cards. It can also write and read data based on the ISO/IEC 14443 communication standards. Immune to wear caused by dirt and friction, contactless operation leads to enhanced maintainability. Key functions and features of the module are detailed below. e Based on an inductive read/write system type-certified by the Radio Law of Japan. It is also compliant with the relevant standards in the United States, Canada, and Europe. e Compatible with devices such as mobile phones incorporating a Mobile FeliCa IC chip. NOTE Not all of the processing sequences can be handled. e Compactly designed with an integral antenna. e Magnetic and metal sheets are attached to reduce the effects of the installation environment. e UART serial interface for host controller communication. e Power supply voltage supports 3.3 V and 5.0 V. Page 9 RC-S620/S Product Specifications Felica 2 Hardware specifications This chapter focuses on major hardware specifications. 2.1 Major specifications The following describes the modules major specifications. 2.1.1 FeliCa communication e Max. communication distance : 20mmormore
(No dead zones of 1 mm or more wide within the above range)
<Measurement conditions>
In a free space (temperature: 25C, humidity: 50%RH) that is potentially unaffected by nearby radio waves and magnetic sources, a single RC-S880 card (operating at its center frequency) is polled by a standard module. The card is placed so that its center aligns with the center of the modules antenna along a vertical axis perpendicular to the antenna surface, with its longitudinal edges maintained in parallel to those of the antenna, as shown in Figure 2-1. e Carrier frequency (fc) > 13.56 MHz e Data transfer rate : fe /64 (212 kbps, approximately), fe / 32 (424 kbps, approximately) e Modulation system : Transmission ASK Reception ASK e Bit coding : Transmission Manchester coding Reception Manchester coding e Communication system : Half-duplex communication, CRC-ITU-T e Compatible cards * : RC-S850 Series (RC-S850, RC-S853, RC-S854, RC-S855) RC-S860 Series (RC-S860, RC-S862, RC-S864) RC-S880 Series (RC-S888, RC-S889) FeliCa Lite (RC-S886, RC-S710) Mobile phones incorporating a Mobile FeliCa IC chip (on which the Mobile FeliCa OS Version 2.0 is running)
(Products based on the 2009/1/15 FeliCa Validation Program) FeliCa Plug/NFC Dynamic Tag (RC-S801, RC-S802) e Compatible devices **
Page 10 RC-S620/S Product Specifications FeliCa Ad-hoc communication e Data transfer rate o Initiator mode : fe /64 (212 kbps, approximately), fc / 32 (424 kbps, approximately) o Target mode : fe /64 (212 kbps, approximately) e Compatible devices : Mobile phones incorporating a Mobile FeliCa IC chip (on which the Mobile FeliCa OS Version 2.0 is running) NOTE Feasibility of data exchange and other functions necessary for application execution depends on the FeliCa Ad-hoc Link Protocol (FALP) on the device used to control the module and mobile phones, as well as the method of implementing the FALP-compatible application. For more information, please see the documents that accompany software development kit and individual applications of Sony (there is no description about FALP in an English version). 16 Available only when the card or the device to be used is also compatible with 424 kbps. 247 Usable number of cards: One at a time. 368 Biease consult us in advance when using a card or a device other than the ones listed above. Such a card or device may differ in communication distance, making it necessary to verify its performance. Cards eee Card
' Communication distance Antennas i
longitudinal direction ee Antenna of the module NOTE The relative positions of the card and the antenna are determined first by paralleling their longitudinal directions and second, by aligning their centers along an axis that intersects at right angles with the antenna. Figure 2-1: Max. communication distance Page 11 RC-S620/S Product Specifications F e | i C a 2.1.2 ISO/IEC 14443 communication e Carrier frequency (fc) : 13.56 MHz e Data transfer rate : fe / 128 (106 kbps, approximately) e Modulation system o TypeA : Transmission - ASK Reception ASK o TypeB : Transmission - ASK Reception - BPSK e Bit coding o TypeA : Transmission Modified Miller Reception Manchester coding with subcarrier o TypeB : Transmission NRZ Reception NRZ with subcarrier e Communication system : Half-duplex communication e Compatible cards : MIFARE Classic, MIFARE Ultralight, MIFARE DESFire, Topaz/Jewel, Calypso CD Light
(ISOMEC 14443 Type A, MIFARE and ISO/IEC 14443 Type B standards are supported)
' Please consult us in advance when using a card or a device other than the ones listed above. Such a card or device may differ in communication distance, making it necessary to verify its performance. Page 12 RC-S620/S Product Specifications Felica 2.2 Interface Interfacing between the module and the controller utilizes the connector described below. 2.2.1 Connector e Model number: 08 6223 006 101 868+ made by KYOCERA Connector Products Corporation Low-profile, 0.5 mm pitch FFC/FPC connector
(Au plated / Single terminal / SMT / Right angle / NON-ZIF / 6 poles) NOTE1 For the contact point direction, see section 2.7 External dimensions. NOTE2 For applicable cable, see section C.1 Terminal requirements of FFC/FPC. NOTE3 Please consult the manufacturer for detailed specifications. 2.2.2 Pin assignment Table 2-1: Pin assignment No. Designation Function Remarks 1 VDD Power supply DC3.3 V or DC5.0 V input 2 RXD RXD signal 3 TXD TXD signal 4 GND Ground For grounding 5 Reserve Non Requires OPEN processing by the controller 6 PRS (GND) Module Fixed at L (with GND grounded) identification signal NOTE Please confirm the position of 1pin in external dimensions. Page 13 RC-S620/S Product Specifications F e | i C a 2.3 UART communication specifications See the tables below for UART communication specifications. Table 2-2: UART transfer rate Transfer rate (bps) 9,600 19,200 38,400 57,600 115,200 (default) 230,400 460,800 Table 2-3: UART transactions Item Description Start bit 1 Data bit 8 Parity None Stop bit 1 Flow control None Page 14 RC-S620/S Product Specifications 2.4 Electrical specifications Felica 2.4.1 Absolute maximum rating Observe the following ranges of operation in order to avoid irreparable damage to the module. Table 2-4: Absolute maximum rating Item Rating Unit Power supply voltage -0.2 to +5.9 Vv Input voltage -0.2 to +5.9 Vv 2.4.2 Electrical characteristics Table 2-5: Electrical characteristics
(Conditions) Temperature: 25 C, Humidity: 50 %RH Item Min Max Unit Remarks Power supply voltage (VDD) *1 3.15 3.45 Vv DC input, GND =0 V Ripple voltage: 50 mVpp or less 4.75 5.25 Vv Rate of rise at power-up: 1 V/us or less Current capacity: 200 mA or more Current consumption (lvpp) *2 100 mA RF ON: Approx. 70 mA RF OFF: Approx. 20 mA Current consumption (Ispp) 100 HA VDD = 3.3 V, During soft power down 1000 HA VDD = 5.0 V, During soft power down Signal RXD H-level input voltage VDD x0.7___ VDD Vv RXD L-level input voltage 0 VDDx03 V TXD H-level output voltage 2.48 Vv VDD = 3.3 V, IOH = -6 mA 3.8 Vv. VDD = 5.0 V, |OH = -12 mA TXD L-level output voltage 0.5 Vv VDD = 3.3 V, lIOL=6mA 0.6 Vv VDD = 5.0 V, IOL=12 mA a Fully verify to noise from power supply, other modules and cables, since noise exerts deleterious effects on communication performance.
"2 Current consumption changes by power supply voltage, the existence of cards, installation. Page 15 RC-S620/S Product Specifications F e | i C a 2.5 Others e Operating environment (no condensation or frost) o Performance assurance temperature/humidity '
0c 40C 50C 4 20 to 90 %RH 50 %RH or less o Function assurance temperature/humidity
-10C 0C 40C 60 C 20 to 90 %RH 50 %RH or less
*1 Guarantees 80% of Max. communication distance (25 C, 50 %RH) defined in section 2.1.1 FeliCa communication" or more.
*2 Guarantees normal operation of the RF communication processor, although the communication performance described above cannot be assured in temperature extremes. NOTE The board temperature inevitably rises if the Reader/Writer is continually transmitting card access commands (such as when polling a card). Make sure to design the enclosure so that the internal temperature and humidity can be held within the specified ranges. e Storage environment (no condensation or frost)
-30 C 0C 70 on 60 %RH or less e Mass : Approx. 17g 2.6 Reliability specifications e Shock : IEC60068-2-27 Test Ea e Vibration : 1EC60068-2-64 Test Fh Page 16 RC-S620/S Product Specifications F e | i C a 2.7 External dimensions External dimensions of the module are illustrated below. 70 p2.4+0.1*1.55+0.05 6-Pin Connector NON-ZIF se 43 Contact point direction = ss | T WARP RA Trimming burr direction Sng? y No. [Parts Material [Qty] [Mesurement Tolerance |
1 Magnetic sheet |Soft magnetic sheet <Ls |4 +0.1 2 Metal plate SPTE <Ls |16 +0.2 3 Spacer Polyurethane foam <Ls |63 40.3 4 Cooling sheet Silicon sheet <Lbs |250 |+0.4 5 Insulating tape _ | Polyester tape <ls +0.6 |
ee (Unit: mm) Figure 2-2: External dimensions Page 17 RC-S620/S Product Specifications FeliCa 2.8 Label specifications 2.8.1 Position of spec indication label Position of spec indication label is shown in following a figure:
(5) Spec indication label Figure 2-3: Position of spec indication label (metal plate) 2.8.2 Contents of spec indication label Contents of spec indication label are shown in following a figure:
Mode: RC-S620/S oc: 3.3/5V === 4-537-570-01 CAN ICES-3 B/NMB-3 B_ MSIP-CRI-SOK-RC-S620S FCC a ON I:409B-RCS620S & C [G Eoxccecce0000%x MXXXXKK Sony Corporation Made in Japan / Fabriqu au Japon \
2D bar code Serial number Figure 2-4: Contents of spec indication label Page 18 RC-S620/S Product Specifications FeliCa 2.9 RF performance and the use of magnetic sheet e RF (communication) performance is closely related to the effectiveness of the magnetic and metal sheets used below and around the antenna of the module. e RF performance varies considerably, depending not only on the magnetic permeability (u, uy), dimensions and thickness of the magnetic sheet but also on the dimensions and material of the metal sheet used. There is also a possibility that it is affected by metal in the installation environment. e The module is designed to be used with the specified magnetic and metal sheets attached in advance to control the magnetic field generated by the antenna, as well as to minimize the possible effects from the installation environment. This contributes a great deal to the reduction of the time required for weighing the effects of the installation environment and evaluating the modules RF performance. Page 19
1 | User Manual 2 | Users Manual | 4.32 MiB | April 03 2014 |
RC-S620/S Product Specifications FeliCa 3 Software specifications 3.1 Communication packet The host packet format defines three types of frames normal, extended and ACK. Transactions between the host controller and the module are based on packet communication using host packets. The module processes the received host command packet and returns a host response packet. Needless to say, the module cannot autonomously transmit host response packets. 3.1.1 Normal frame Between the host controller and the module, the normal frame allows transmission and reception of host command/host response packets whose LEN value is equal to or smaller than 255 bytes. This frame also provides a subordinate error frame used by the module to notify the host controller of syntax error detection. Table 3-1: Normal frame Designation Size (bytes) Remarks Preamble 1 Oh fixed Start Of Packet 2 00h FFh fixed LEN 1 Specify the data length (max. 255 bytes) LCS 1 Specify the checksum of LEN data (a value that sets 00h to the lower 1 byte of the sum of LEN and LCS bytes). Packet data Max. 255 DCS 1 Specify the checksum of data in a packet (a value that sets 00h to the lower 1 byte of the sum of data and DCS bytes). Postamble 1 00h fixed Page 20 RC-S620/S Product Specifications FeliCa 3.1.2 Extended frame The extended frame is used to send and receive host command/host response packets whose LEN value is equal to or greater than 256 bytes and equal to or smaller than 265 bytes. Table 3-2: Extended frame Designation Size (bytes) Remarks Preamble al 00h fixed Start Of Packet 2 OOh FFh fixed 2-byte frame identification code 2 FFh FFh fixed LENEx 2 Specify the data length (max. 265 bytes) in the big endian format. All data equal to or greater than 266 bytes is interpreted as 265 bytes. LCSEx 1 Specify the checksum of LENEx data (a value that sets 00h to the lower 1 byte of the sum of 2-byte LENEx and 1-byte LCSEx). Packet data Max. 265 DCS 1 Specify the checksum of data in a packet (a value that sets 00h to the lower 1 byte of the sum of data and DCS bytes). Postamble 1 OOh fixed Which type of frame is to be used for the host response packet is automatically determined the normal frame if the LEN value is equal to or smaller than 255 bytes and the extended frame if it is equal to or greater than 256 bytes. 3.1.3. ACK frame The ACK frame is intended for use in the following situations. e Module to Host Controller Transmission o Informing the host controller that no data link level error is detected in the received host command packet. NOTE This is the one and only instance the module transmits the ACK frame. e Host Controller to Module Transmission o Interrupting host command execution. o Determining the results on command execution (prerequisite with the Reset command or SetSerialBaudrate command). For more information, see the RC-S956 Series Command Reference Manual. NOTE In the cases other than those above, the module ignores the ACK frame received from the host controller. Table 3-3: ACK frame Designation Size (bytes) Remarks Preamble 1 00h fixed Start Of Packet 2 00h FFh fixed LEN 1 00h fixed LCS 1 FFh fixed Postamble 1 00h fixed Page 21 RC-S620/S Product Specifications FeliCa 3.2 Communication protocol The communication protocol consists of a data link level and an application level. 3.2.1 Data link level The module uses this level to make sure that the host packet is transmitted or received in accordance with the communication protocol, i.e., without any error. For this purpose, the module verifies the following information contained in each host packet. e Host Packet Format o LEN, LCS (In case of normal frame) o LENEx, LCSEx (In case of extended frame) o DCS o Postamble If no error is detected in the received host packet, the module returns an ACK packet to the host controller. A) Figure 3-1 shows a typical communication sequence on the data link level. Host controller Host command packet J Max. 3.5[ms]
Response time Host response packet ACK (Optional) Figure 3-1: Communication protocol between host controller and module If the host command packet is verified, the module prepares an ACK frame within 3.5 ms. Stated the other way round, the module requires a maximum of 3.5 ms in order to be ready to transmit an ACK packet after receiving an IN packet. Acknowledging packet reception, the module proceeds to host command processing, returns a host response packet, and waits for the reception of the next host command packet. Accordingly, it is not necessary for the host controller to be concerned with the time interval between the reception of a host response packet and the transmission of the next host command packet. Upon detection of a host response packet from the module, the controller optionally transmits an ACK frame to the module. Page 22 RC-S620/S Product Specifications Felica B) If a data link level error is detected, the module remains non-responsive to the host controller. Seeing that no ACK frame is returned, the host controller retransmits a host command packet to recover communication. Host command packet Figure 3-2: Data link level error in host command packet Major errors encountered during data link level communication are listed below. LCS Error In the case of Normal Frame, the lower 1 byte of the sum (2 bytes) of LEN and LCS is not 00h. In the case of Extended Frame, the lower 1 byte of the sum of the upper 1 byte of LENEx, the lower 1 byte of LENEx, and LCSEx (totally 3 bytes) is not 00h. DCS Error The lower 1 byte of the sum obtained by adding up all data bytes and DCS is not 00h. Postamble Error The postamble byte is not included. Data Link Level Timeout Error This error refers to a condition that occurs when the time limit predetermined for data detection has been exceeded. With the module, a timeout occurs if all the packets, between the 3-byte data headed by the Start Of Packet bytes and the Postamble byte at the end of the frame, are not received within the timeout interval specified in Table 3-4. In the event of a timeout error, the module discards all the packets received up to that point. The timeout interval varies depending on the transfer rate, although the same setting and detection method are used for both the normal frame and the extended frame. Table 3-4: UART host command reception timeout interval Transfer rate (bps) Timeout (ms) 9,600 1067 19,200 533 38,400 267 57,600 178 115,200 (default) 89 230,400 44 460,800 22 Page 23 RC-S620/S Product Specifications Felica 3.2.2 Application level This is the level where the module executes the host command specified in the host command packet. A) When command processing is complete, the module returns a host response packet to the controller. B) The host controller transmits an ACK frame when it is necessary to interrupt command execution by the module. The next host command cannot be sent until more than 1 ms elapses from the interruption of host command execution (or the completion of ACK frame transmission), but never interrupt the host command execution by the following way. o When a host command packet, comprised of equal to or greater than 3 bytes appended to the Preamble byte and the Start Of Packet bytes, is received from the host controller, the module discontinues the on-going processing and executes the newly received host command if no error is detected through the verification at the data link level. C) If a syntax error is detected in the received packet, the module notifies the controller by returning an error frame. Table 3-5: Error frame Designation Size (bytes) Remarks Preamble 1 00h fixed Start Of Packet 2 OOh ffh fixed LEN if Oth fixed LCS 1 ffh fixed Packet data 1 7fh fixed DCS 4 81h fixed Postamble 1 00h fixed Page 24 RC-S620/S Product Specifications Felica 3.3 Mode transition 3.3.1 Concept of operating mode The module operates in seven modes - Mode 0, Mode 1, Mode 2, Mode 3, Mode 4, Mode 5 and Mode 6. Available commands vary according to the mode, while the mode changes as the result of host command execution or RF command reception. For more details, see the RC-S956 Series Command Reference Manual. 3.3.2 Overview of individual modes e Mode 0
[Initial Mode]
Used to perform the following functions. Self diagnosis Transfer speed setting for host communication RF waveform test Various settings for RF communication o Starting up as an initiator or a target In Mode 0, the module exists neither as an initiator nor a target. Switching between the initiator and target states cannot be performed without traversing this mode. Oo Oo 0 0 e Mode 1
[Target Initial State]
Enables the module to operate as a target to wait for RF command packets (see Condition R-1, R-2 and R-3 of 5.1 Concept of Operation Modes mentioned in the RC-S956 Series Command Reference Manual). In other words, this is the mode where the TglnitTarget command is executed. As soon as the command execution is normally completed the operation mode shifts to Mode 2, Mode 3 or Mode 5. Reception of a new host command packet terminates and disables the ongoing TglnitTarget command processing and causes transition to Mode 0 for processing of the newly received host command packet. e Mode 2
[Target Initial ATR Incomplete State]
Enables the module to operate as DEPTarget to receive the first ATR_REQ. This is the mode to set Gt of ATR_RES by the host controller, and to reply ATR_RES. It is the state immediately after receiving ATR_REQ when fAutomaticATR_RES flag is (0)b. e Mode 3
[Target Initial ATR Complete State]
Enables the module to operate as DEPTarget to receive the first DEP_REQ. In this mode, the module can not reply DEP_RES. It is the state immediately after receiving ATR_REQ and replying ATR_RES when fAutomaticATR_RES flag is (1)b. Page 25 RC-S620/S Product Specifications F e | i C a e Mode4
[DEPTarget State]
Enables the module to operate as DEPTarget to perform the following function. o Replying DEP_LRES o Receiving second or later DEP_REQ e Mode 5
[FeliCa Target State]
The module operates and RF communicates as a FeliCa target. e Mode
[Initiator Operation]
The module operates and RF communicates as an initiator. Page 26 RC-S620/S Product Specifications 3.4 Command list FeliCa Table 3-6 provides a list of available commands. Command/response code size is 2 bytes. Command code is comprised of d4h (fixed) and sub-command code (1 byte), response code is also comprised of d5h (fixed) and sub-response code (1 byte). The module returns a syntax error message if a value other than the one specified in the sub-command code column is used. Functional details of individual commands are provided in the RC-S956 Series Command Reference Manual. Table 3-6: Command list Command Sub-command Sub-response code code Command overview Normal command Diagnose 00h Oth Used to perform self-diagnosis of RC-S956 GetFirmwareVersion 02h 03h Used to obtain RC-S956 firmware version information. GetGeneralStatus 04h 05h Used to obtain information about RC-S956 internal state. ReadRegister 06h O7h Used to access data in the RAM or I2C EEPROM. WriteRegister 08h 09h Used to write data in the RAM or I2C. EEPROM. ReadGPIO Och Odh Used to obtain the value of the input port
(P34). RFU" Oeh ofh SetSerialBaudrate 10h 11h Used to change the transfer rate between RC-S956 and the host controller. SetParameters 12h 13h Used to change the internal parameters RC-S956 retains in the RAM. RFU 14h 15h PowerDown 16h 17h Used to set RC-S956 in the power-down state. RFConfiguration 32h 33h Used to change the RF setting information RC-S956 retains in the RAM. RFRegulationTest 58h 59h Used to test RC-S956 RF waveform. Reset 18h 19h Used to cause transition to Mode 0. RFU" ch dh Command for initiator InJumpForDEP 56h 57h Used to capture DEPTarget for DEP communication. InJumpForPSL 46h 47h Used to test the command. The function of this command is same as InJumpForDEP. InListPassiveTarget 4ah 4bh Used to capture a target to obtain its target ID. InATR 50h 51h Used to transmit ATR_REQ and receive ATR_RES. InPSL 4eh fh Used to change RF communication rate. InDataExchange 40h 4th Used to transmit and receive RF packets when the classification of Target card is FeliCa card but not ISO/IEC 14443 Type B card. InCommunicateThru 42h 43h Used to transmit and receive RF packets when the classification of Target card is FeliCa card or ISO/IEC 14443 Type B card. Page 27 RC-S620/S Product Specifications FeliCa Command Sub-command Sub-response Command overview code code InDeselect 44h 45h Used to set the Target in Deselected state. InRelease 52h 53h Used to set the Target in Released state. InSelect 54h 55h Used to change state of the Target in Selected from Deselected. Command for target TglnitTarget 8ch 8dh Used to start up RC-S956 in the target mode. TgSetGeneralBytes 92h 93h Used to set Gt parameter and reply ATR_RES. TgGetDEPData 86h 87h Used to obtain payload data of DEP_REQ(INF) TgSetDEPData 8eh 8fh Used to reply payload data of DEP_REQ(INF) TgSetMetaDEPData 94h 95h Used to reply chaining payload data of DEP_REQ(INF). TgGetlnitiatorCommand 88h 89h Used to obtain an RF packet when RC-S956 is started in the target mode. TgResponseTolnitiator 90h 91h Used to transmit an RF packet when RC-S956 is started in the target mode. TgGetTargetStatus 8ah 8bh Used to obtain information about the currently set transfer speed when RC-S956 is started in the target mode. CommunicateThruEX a0h ath Used to transmit and receive RF packets in Ad-hoc communication. This command can be used regardless of whether RC-S9856 is started in the initiator
= mode or the target mode. Pars Command to be implemented in the future. Page 28 RC-S620/S Product Specifications Felica 4 Packing specifications 4.1 Packing details The following shows how modules are packed in a master carton. e Number of packed modules : 100 e Master carton external dimensions : 415mm x 108 mm x 430 mm (W x H x D) Protective panel Module 100 pieces / master carton
(2 pieces x 5 rows x 10 columns) o
2 Folded oo Partition panel Master carton 415 mm = 108 mm x 430 mm (W x H x D) Bar code label Model label Figure 4-1: Packing details Page 29 RC-S620/S Product Specifications Felica 4.2 Contents of bar code label SY RC-S620/S Model name IAI P-98927310-L Sony product number (fixed number) INTAAT SAO-1 000001-/ Sony internal use code (not fixed) Figure 4-2: Contents of bar code label 4.3 Contents of model label Mado in Japan / Fabriqu au Japon 2-597-665-01 Figure 4-3: Contents of model label Page 30 RC-S620/S Product Specifications Felica 5 Precautions 5.1 Handling precautions The module must be handled with special care, keeping the following precautions in mind. e The module is an inductive-type read/write communication device that is type-certified in compliance with the Radio Law of Japan. The operating frequency is 13.56 MHz. Disassembly or modification of the module, removal of the type number or similar acts are subject to penalties according to applicable laws. e Besure to use a stable power supply so that the module can be protected from the effect of noise and excessive voltage peaks, such as lightning, transmitted through the power supply connector. e Donot cause any chemical or physical damage to the module. e Do not subject the module surface to contaminated air or materials. e Tightly ground not only module after installation but all jigs, machines, workbenches and workers bodies. to prevent static electricity from affecting the module. e For safetys sake, be sure to wear gloves when handling the module, although its surfaces are carefully finished. e Protect the module from interference from other wireless machines. e Donot install the module in an environment where a strong electromagnetic field may exert deleterious effects on communication performance. Take special note of the installation location so that interference between the module and other equipment can be adequately controlled. e Communication performance may be affected by the harmonics of the 13.56 MHz carrier frequency generated on the signal line. e Check in advance the compatibility between the module and your system. The module cannot handle part of the processing sequences ' provided by mobile phones and other portable devices incorporating mobile FeliCa IC chips. e The interface cable (FFC/FPC) is not supplied, making it necessary to prepare the one appropriate for your system. When selecting the cable, make sure to connect a cable in the right direction because the connector has a double terminal. e Measures for static noise and power line noise must be designed and incorporated on your own.
" Among the processing sequences unique to mobile FeliCa compatible portable devices, the module cannot handle the sequence which allows wireless communication from the Reader/Writer after the mobile FeliCa IC chip was activated by the portable device via a wired interface. For more information, see the Mobile FeliCa Technical Information (Japanese only) that explains Reader/Writer operation in mobile applications. 5.2 Notes on external appearance Since the module is designed for embedded applications, please realize that flaws on the order described below may occur. e Scratch or stain on the product surface, which has no effect on performance. e Change in the board color. Page 31 RC-S620/S Product Specifications Felica Appendix A About installation A.1 Installation requirements for RC-S620/S The following describes the points to remember when installing the modules. 1. Do not use any metal or carbon compound as the material for the cabinet. The cabinet surface must be at least 1.5 mm apart from the board surface. 2. Do not place any metal in the forbidden area (dot-meshed area in Figure A-1) secured around the module. Particularly, communication performance undoubtedly deteriorates if a plate-like metal is put near the module. 3. In order not to induce eddy current, make a cut in the metal plate surrounding the above forbidden zone. 4. If no performance improvement is achieved through the steps described above, attempt to add magnetic sheets, as shown in Figure A-2, to the metal surface that faces the card and keep away the module from a metal plate at least 0.5 mm (d > 0.5). Card 1.5 mm or more Module ;
(board side) Cabinet When an antenna unit is surrounded with a metal plate, make sure to make a cut. Figure A-1: Installation requirements Page 32 RC-S620/S Product Specifications FeliCa A.2 Reduction of the impact of metal Deviation from the resonance point caused by bringing the card closer to the metal plate may result ina change in the cards original characteristics. The effect of metal plate could be reduced by adding magnetic sheets to the positions illustrated above. Card Module
(board side) Cabinet
- Unavoidable metal in the cabinet Addition of magnetic sheet Magnetic sheet Figure A-2: Reduction of the impact of metal Page 33 RC-S620/S Product Specifications FeliCa Appendix B About temperature rise B.1 The verification method and measure The temperature of the module rises, when emitting a magnetic field. Therefore, check that the internal temperature in the situation that the module is installed in your system. And verify on any conditions, since the temperature of the module changes by power supply voltage, the existence of cards. Note that the module temperature rises considerably when power supply is 5.0V. The temperature rise of the module could be suppressed by implementing the following measures. e Cut a magnetic field except when using. e Emit amagnetic field intermittently until it catches a card even when using. e Shorten the processing time and set up timeout. NOTE If satisfactory in your system, it is not this limitation. Page 34 RC-S620/S Product Specifications F e | i C a Appendix C About interface cable C.1 Terminal requirements of FFC/FPC Recommended FFC/FPC (for host controller communication) dimensions are illustrated below. Supporting tape 3.0 or more 4.0 or more 0.50+0.05 _ 0.30 + 0.03 0.30 + 0.05 0.50+0.10 _ _ 0.50 + 0.10 2.50 + 0.05 :
(Unit: mm) 3.50 + 0.07 Figure C-1: Recommended FFC/FPC dimensions Page 35 RC-8620/S Product Specifications Felica
(Blank page) Page 36 Reader/Writer Module RC-S620/S Product Specifications Version 1.1 February 2014 First Edition FeliCa Business Division Sony Corporation No. Mxxx-Exx-xx 2014 Sony Corporation Printed in Japan
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2014-03-04 | 13.56 ~ 13.56 | DXX - Part 15 Low Power Communication Device Transmitter | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2014-03-04
|
||||
1 | Applicant's complete, legal business name |
Sony Corporation
|
||||
1 | FCC Registration Number (FRN) |
0003739166
|
||||
1 | Physical Address |
1-7-1 Konan
|
||||
1 |
Tokyo, 108-0075
|
|||||
1 |
Japan
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
e******@ul.com
|
||||
1 | TCB Scope |
A1: Low Power Transmitters below 1 GHz (except Spread Spectrum), Unintentional Radiators, EAS (Part 11) & Consumer ISM devices
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
AK8
|
||||
1 | Equipment Product Code |
RCS620S
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
R**** T********
|
||||
1 | Title |
Senior Manager
|
||||
1 | Telephone Number |
81-50********
|
||||
1 | Fax Number |
81-50********
|
||||
1 |
c******@jp.sony.com
|
|||||
app s | Technical Contact | |||||
1 | Firm Name |
UL Japan, Inc.
|
||||
1 | Name |
T******** I****
|
||||
1 | Physical Address |
1-22-3 Megumigaoka, Hiratsuka-shi
|
||||
1 |
Kanagawa-ken, 259-1220
|
|||||
1 |
Japan
|
|||||
1 | Telephone Number |
81-46********
|
||||
1 | Fax Number |
81-46********
|
||||
1 |
T******@ul.com
|
|||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DXX - Part 15 Low Power Communication Device Transmitter | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Contactless IC Card Reader/Writer | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Single Modular Approval | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | Single Modular Approval. Compliance of this device in all final host configurations is the responsibility of the Grantee. | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
UL Japan, Inc. Shonan EMC EMC Lab.
|
||||
1 | Name |
T**** H********
|
||||
1 | Telephone Number |
+81-5********
|
||||
1 | Fax Number |
+81 5********
|
||||
1 |
T******@jp.ul.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 13.56000000 | 13.56000000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC