FCC ID: SY55WY8230 Remote Keyless Entry Receiver

 

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. n e d n a t s e g u z h c i l k c r d s u a t t i e W t r e w h c n i u z r f n e h c t i l f p e r e d n o s of Functional Description Siemens Korea RF SRX module Type: 5WY8230(for 315MHz)

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. n e d n a t s e g u z h c i l k c r d s u a t t i e W t r e w h c n i u z r f n e h c t i l f p e r e d n o s Table of Contents page 1. GENERAL.......................................................................................................................................................................................3 1.1. DEFINITIONS AND ABBREVIATIONS.................................................................................................................................. 4 2. SYSTEM DESCRIPTION............................................................................................................................................................5 2.1. 2.2. 2.1.1. SRX SYSTEM BLOCK DIAGRAM........................................................................................................................................... 6 Application for KOR-baby board receiver (TDA521X) .......................................................................................7 SRX MODULE PIN OUT CONFIGURATION ...................................................................................................................... 8 2.2.1. Main connector X1 .....................................................................................................................................................8 2.2.2. RF antenna connector X2..........................................................................................................................................8 3. FUNCTION ELECTRICAL DESCRIPTION............................................................................................................................9 3.1. 3.1.1. 3.1.2. 3.1.3. 3.1.4. SRX OPERATION MODES.................................................................................................................................................... 9 RKE MODE...................................................................................................................................................................9 PASE MODE.................................................................................................................................................................9 SLEEP MODE ..............................................................................................................................................................9 STAND-BY MODE:....................................................................................................................................................10 3.2. DUTY CONTROL FOR PDWN............................................................................................................................................ 11 3.3. MODULATION SELECTION FOR MSEL............................................................................................................................ 11 3.4. RSSI (RECEIVED SIGNAL STRENGTH INDICATOR) FOR RANGE REDUCTION............................................................. 11 3.5. DEMODULATED DATA OUT FOR RF_DATA................................................................................................................. 12 3.5.1. Data Output Electrical Characteristics: ..............................................................................................................12 SRX DATA LINE (SERIAL INTERFACE) SRX_COM FOR RXD / TXD / WAKEUP.................................................... 12 BATTERY VOLTAGE REFERENCE OBSERVATION .......................................................................................................... 12 3.6. 3.7. 4. SRX SYSTEM ELECTRICAL SPECIFICATION..................................................................................................................12 4.1. OPERATING TEMPERATURE RANGE OF SRX................................................................................................................. 12 4.2. OPERATING VOLTAGE RANGE OF SRX........................................................................................................................... 12 4.3. QUIESCENT CURRENT [I S] ................................................................................................................................................ 13 5. MICRO-PROCESSOR DESCRIPTION.................................................................................................................................13 6. RF TECHNICAL DESCRIPTION............................................................................................................................................14 6.1. RF INPUT SENSITIVITY...................................................................................................................................................... 14 RF input sensitivity...................................................................................................................................................14 RF data output demodulation polarity.................................................................................................................14 6.1.1. 6.1.2. 7. SYSTEM COMPATIBILITY WITH TX FREQUENCY TOLERANCE..............................................................................14 7.1.1. 3 dB sensitivity degradation...................................................................................................................................14

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. n e d n a t s e g u z h c i l k c r d s u a t t i e W t r e w h c n i u z r f n e h c t i l f p e r e d n o s FCC Compliance statement 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. Caution: You are cautioned that any changes or modifications to the equipment not expressly approved by the party responsible for compliance could void your authority to operate the equipment. 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. s v r e s r

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. n e d n a t s e g u z h c i l k c r d s u a t t i e W t r e w h c n i u z r f n e h c t i l f p e r e d n o s 1. GENERAL This is describes the hardware RF engineering of the stand alone RF receiver (SRx) for the HYUNDAI TG project, which has the general RF Hardware and RF electrical specification for the remote control radio frequency reception

: Stand- alone receiver (RX) 1.1. Definitions and abbreviations SRx RKE RF BCM PASE IPM PIC PDWN TG, BH FSK ASK LNA Tx Rx MSEL RISS RxD TxD VREF TP EOL VBAT TTGD VSWR ECU ICT OST

: Remote Keyless Entry

: Radio Frequency

: Body Control Module

: Passive Access Start & Entry

: In-Panel Module

: Personal Identification Card

: Power Down

; Name of Hyundai motor vehicle platform

; Frequency Shift -Keying

: Amplitude Shift- Keying

: Low Noise Amplifier

: Transmitter

: Receiver

: Modulation Selection

: Received Signal Strength Indicator

: Receiving Data

: Transmit Data

: Voltage Reference

: Test Point

: End of Line

: Voltage Battery

: Time To Good Data

: Voltage Standing Wave Ratio

: Electronic Control Unit

: In- Circuit Test

: Oscillation Stabilization Time 2. SYSTEM DESCRIPTION This Standalone (SRx) receiver has to support the receipt of RF telegram from transmitted in free air way by corresponding transmitter and to transmit them to a host module (e.g. the Body Control Module and PIC module).

KOR-baby board receiver 315, FSK -1K data rate based on Infineon TDA 521x , which module optimized maximum for the enhanced RF working range with LNA and data filter characterization. All receipts of RF telegram has to be transmitted to a host module with the serial linked communication line which line of single-wired serial link must be available to communicate with bi-directional for a bit rate 2.4k bauds for BCM for a bit rate 9.6k bauds for PIC. This SRx provide a variant 4 resistors with pull- Ground down for reading of mounted code. The processor of the SRx was selected as 8-bit Single-chip NECs Micro-controller with 78KO series The main function of generic SRx is

RF signal detection (in-band)

Data signal demodulation.

Manchester and Shark protocol detection

Self-polling for the standby current consumption

Wake up function for the host module

315MHz RF data reception

Serial communication with the single wired link com. s v r e s r

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. n e d n a t s e g u z h c i l k c r d s u a t t i e W t r e w h c n i u z r f n e h c t i l f p e r e d n o s 2.1. SRx system block diagram Show the system block diagram and generic receivers. The SRx generic hardware consists of:

- Battery supply inputs

- DC 5Volt Regulation circuit

- Processor micro-controller

- Serial single-wired link communication

- Variants Rx module control & support

- External RF antenna

- Main connector

- RF Antenna connector

- Ground. SRX Figure 1: SRX system Block diagram GND

(Chassis)

(+UB 9-16V ) SRX - Data line

(1 wire serial Interface) host module

(e.g BCM /

PASE/ IPM) 2.1.1. Application for KOR-baby board receiver (TDA521X) KOR-baby board receiver pictures

-PCB terminated pinning type (9 in/output pins)

-Manual placement on the mother board PCB.

-Vertical Standing assembled on mother PCB

-Enhanced RF sensitivity application, designed by SV Ichon

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. n e d n a t s e g u z h c i l k c r d s u a t t i e W t r e w h c n i u z r f n e h c t i l f p e r e d n o s 2.2. SRx module PIN out configuration To guarantee the full functionality of the RF system all lines listed below are mandatory. 2.2.1. Main connector X1 Digital / physical inputs SRX_COM N.A V_BAT GND Pin NO Task description X1-1 X1-2 X1-3 X1-4 SRX Data line (serial Interface ) N.A reserved Battery power supply input (9 V ~16V) SRX ground 2.2.2. RF antenna connector X2 Digital / physical inputs RF ANT-IN GND GND PIN X2-1 X2-2 X2-3 Task description RF antenna signal input Ground1 Ground2

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. n e d n a t s e g u z h c i l k c r d s u a t t i e W t r e w h c n i u z r f n e h c t i l f p e r e d n o s 3. Function electrical description 3.1. SRX Operation Modes The SRX can operate in three different modes RKE Mode, PASE Mode and Stand by Mode. Additionally the SRX has a Sleep Mode where the power consumption is reduced to a minimum. 3.1.1. RKE MODE In the RKE Mode the following functionalities are available:

Parameter RF data reception Duty cycle SRx bus communication Battery voltage observation RSSI measurement Contact- cleaning 1 2 3 4 5 6 3.1.2. PASE MODE description Be available Be operated ( PDWN_SMD & PDWN_KFSK) Be available Be observed Be available only for SMD receiver needed Be available In the PASE Mode the following functionalities are available:

Parameter RF-PASE data reception Duty cycle SRx bus communication Battery voltage observation RSSI measurement Contact- cleaning 1 2 3 4 5 6 3.1.3. SLEEP MODE description Be available Be operated ( PDWN_SMD & PDWN_KFSK) Be available for PASE reception results Be observed Be available only for SMD receiver needed Be available The Sleep Mode must be initiated by sending a request message via serial link. The SRX does not operate in the Sleep Mode. To leave the Sleep Mode the host module must send a wake-up message to the SRx. After the SRx was woken up from the Sleep Mode it will go into the Standby Mode for 500 ms. 1 2 3 4 5 6 description Not available Duty -off ( PDWN_SMD :Low / PDWN_KFSK:High) Be available Be observed Not available only for SMD receiver needed Be available Parameter RF-PASE data reception Duty cycle SRx bus communication Battery voltage observation RSSI measurement Contact- cleaning 3.1.4. STAND-BY MODE:

The Stand by Mode is entered by an interrupt from the RxD input (falling edge interrupt) when the SRx is in the sleep mode. In Stand by Mode the SRX-Bus communication is fully available for 500 ms after the SRx oscillator is stable. In the STAND-BY Mode the following functionalities are available:

Parameter RF-PASE data reception Duty cycle SRx bus communication Battery voltage observation RSSI measurement Contact- cleaning description Not available Duty -off ( PDWN_SMD :Low / PDWN_KFSK:High) Be available Be observed Not available only for SMD receiver needed Be available 1 2 3 4 5 6 Note: In SLEEP MODE the SRx does go into the micro controllers stop operation, where the system clock is switched off to save power. Thus leaving the SLEEP MODE takes some time until the oscillator is properly operating again. Note: The function of both Sleep mode and Stand-by mode is realization depending on systematically implementation with a host module for the current consumption saving strategy. s v r e s r

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. n e d n a t s e g u z h c i l k c r d s u a t t i e W t r e w h c n i u z r f n e h c t i l f p e r e d n o s 3.2. Duty control for PDWN The Receiver power supplied by duty periodical control with the processor output port as PDWN_SMD /

PDWN_KFSK Corresponding receivers required the input level voltage as below Main power duty supply control for KOR-baby (as port PDWN_SMD)

(Power supply voltage Vs=5V, 1%) Parameter Typ 1 KOR (receiver OFF) 2 KOR (receiver ON) Max 0.8 Vs Unit V V Remark 3.3. Modulation selection for MSEL The function is available to use only for SMD-receiver/ KOR-baby board, required for the modulation selection with the processor output port as MSEL. Parameter Max Typ Remark 1 MSEL for ASK modulation 2 MSEL for FSK modulation 4 0.2 Unit V V Note) Hardware reserved the fixed resistor to short the MSEL port to the ground in order to prevent the case of floating leakage. 3.4. RSSI (received signal strength indicator) for Range reduction The function is available to use only for SMD KOR-baby board, required for the RSSI range reduction with the processor output port as RSSI. This pin provides a signal related to the input level of the received signal. This received field strength information can be used to support range reduction. Range is reduced by pulling the RSSI port to VCC via a series resistor R. RSSI Output Electrical Characteristics with Ext load resister 390k 5%

Parameter Remark Typ Min 0 2.8 Min 1.4 0 Min 0.8 400 Max 2.8 1400 2000 Unit V A nA 1 VRSSI 2 3 IRSSI IRSSi (leakage) In order to appalling of range reduction function with RSSI signal properly should be implemented carefully with a given detail RSSI characteristic including temp curve form provided the device receiver. s v r e s r

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. n e d n a t s e g u z h c i l k c r d s u a t t i e W t r e w h c n i u z r f n e h c t i l f p e r e d n o s 3.5. Demodulated data out for RF_DATA After process of demodulation by corresponding receiver, which data telegram transfer to the input port as RF_DATA. 3.5.1. Data Output Electrical Characteristics:

For KOR-baby board receiver, Vs=5V, 1%

Parameter Min Typ 1 High output voltage Low output voltage 2 Vs-1.3 0 Max Vs-0.7 0.2 Unit V V Remark Parameter 3.6. SRX Data line (serial Interface) SRX_COM for RxD / TxD / WAKEUP The SRX have two system configurations for support an RKE only system (BCM) and PASE PIC with bi-

directional communication line. The communication speed is 2.4k baud for BCM or 9.6k baud for PASE PIC, After a valid SHARK RKE telegram was successfully received the SRx must transmit the RKE data to the host module via serial link. Special care has to be taken for the following cases. And for the data serial line full-up condition is a corresponded host module has to be full-upped to battery voltage with a resister values 1.2K Ohm 3.7. Battery voltage reference observation To observe the battery voltage with the processor input port as VREF At the V_BAT input line. 1 Over voltage threshold range 2 Under voltage threshold range 4. SRx System Electrical Specification 4.1. Operating Temperature Range of SRx 1 2 4.2. Operating Voltage Range of SRx 1 2 Parameter Operating temperature range Storage temperature range Parameter Operating voltage range [U b]

Reverse voltage protection Remark VBAT For 5 minutes Remark Max

+85

+85 Max 16

-13 Unit V V Unit

C

C Unit V V min 16 8.5 Min

-40

-40 Min 9 max 16.8 Remark Typ Typ Typ 9

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. n e d n a t s e g u z h c i l k c r d s u a t t i e W t r e w h c n i u z r f n e h c t i l f p e r e d n o s The system has to operate at a DC voltage of U b=9V to 16V. The communication over the data line is limited between 9V to 16V. Out of 9V-16V range, the system must not operate, but no malfunction is allowed. The normal operating voltage is U b=12.8V 0.2 during the IGN off and the operation voltage is U b=13.8V 0.2 V duration IGN on. description

< 3.5 mA Parameter I typ @12.8V /RT 4.3. Quiescent Current [I s]

If the system is at RKE stand by condition ( no communication action active) the worst case quiescent current must not be higher than Is over the whole working range [U b] and under worst case surrounding characteristics normally present in plants, different climate and temperature zones where the vehicle could be used by the customer. The typical quiescent current must not be higher than [I typ ] at 12.8V and at room temperature (RT=25C) 1 Note:

For typical quiescent current measure with the average values during the SRx on duty cycle running (vehicles under parking mode completely) The quiescent current in receiver off mode (all SRx functions is stopped) 1 2 Under worst case conditions (16V, 85C) the current Iworst case may increase by 20% of Ityp. Note:

For the current measuring use only a correct tool with a maximum measurement range to 100 mA 5. Micro-processor description Parameter I typ @12.8V /RT (without LNA) I typ @12.8V /RT (with LNA) description

< 0.5 mA

< 0.5 mA The processor of the SRx was selected as 8-bit Single-chip NECs Micro-controller with 78KO series PD780XXX. Target processor is PD780102 with masked. But for the development support, the SRx will be used with flash memory processor PD78F0103 in order to offer facilities to SW development. The Micro controller PD780102 has the following memories:

Internal ROM 16K bytes

- High speeds RAM 768 bytes

- Memory space 64K bytes

- CPU system Clock 4.953 MHz with ceramic resonator

- Support the Flash memory programming

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. n e d n a t s e g u z h c i l k c r d s u a t t i e W t r e w h c n i u z r f n e h c t i l f p e r e d n o s 6. RF technical description 6.1. RF input sensitivity There are two of definitions for the RF input sensitivity, first of case is integrated with LNA circuit for high gain antenna performance, second of case is no integrated with LNA circuit as by passed LNA routing to the receiver RF input. 6.1.1. RF input sensitivity For KOR-baby board FSK receiver @ conducted Frequency Variant 315.00 MHz 5WY 8230

(1k) Data Rate

[kbit/s]

1 Typical sensitivity [dBm]

Min. sensitivity @RT [dBm]

FSK 35kHz dev.

- 111 FSK 35kHz dev.

-108 Input sensitivity at center frequency, BER 10-2 (Vcc = 5V) 6.1.2. RF data output demodulation polarity RF Off LOW RF On HIGH ASK RF Signal RX DATA output FSK RF Signal RX DATA output 7. System compatibility with TX Frequency Tolerance System compatibility with TX Frequency Tolerance is restricted, in order to stay (for the worst-case scenario) within 3 dB sensitivity degradation. 7.1.1. 3 dB sensitivity degradation RF Off HIGH random (from noise FM compared) RF on HIGH Max tolerance of transmitter frequency from nominal carrier frequency ("min. sensitivity 3 dB bandwidth"):

The transmitter should be considered enough as below For KOR-baby board receiver T = -40 to +85C Max. allowed deviation of TX frequency from nominal frequency Frequency band 315 MHz FSK 35kHz deviation

-70 kHz

-222 ppm

+44 kHz

+139 ppm