DPI Remote Keyless Entry System TECHNICAL SPECIFICATION ORIGINATING CENTER: DPI TECHNICAL CENTER FILENAME: RKE_RECEIVER.doc REVISION NO.
R&D / Automotive Electronics TABLE OF CONTENTS 1. 1.1 1.2 2. 3. 3.1 3.1.1 3.1.2 3.2 3.3 3.4 3.5 3.6 3.7 4. 4.1 4.1.1 4.1.2 4.1.3 4.2 4.2.1 4.2.2 4.2.3 4.2.4 4.2.5 5. 5.1.1 5.1.2 5.1.2.1 5.1.2.2 5.1.2.3 5.1.2.4 5.1.2.5 5.1.2.6 5.1.2.7 5.1.3 5.1.3.1 5.1.3.2 5.1.3.3 5.1.3.4 5.1.3.5 5.1.3.6 5.1.3.7 5.1.3.8 5.1.3.9 6. 6.1.1 6.1.2 6.1.3 6.1.4 6.1.5 INTRODUCTION...............................................................................................................4 REMOTE KEYLESS ENTRY FUNCTION ...........
R&D / Automotive Electronics 6.1.6 Environment Test ................................................................................................................24 Compliance Statement THIS DEVICE COMPLIES WITH PART 15 OF THE FCC RULES Operating is subject to the following two conditions; (1) this device may not cause harmful interference, and (2) this device must accept ant interference received, including interference that may cause undesired operation.
R&D / Automotive Electronics 1. INTRODUCTION This document is the technical specification of the remote keyless entry (RKE) System for the car consisting of DPI (Daewoo Precision Industries,. LTD) receiver (RX), DPI transmitter (TX) and siren. The purpose of the DPI RKE system is to provide the remote control function and the anti-theft function in which it is installed and to prevent it from being driven by unauthorized users.
R&D / Automotive Electronics 2.
R&D / Automotive Electronics B+ RF ANTENNA DRIVER DOOR LATCH SW A8 IGN1 30A DOOR OPEN RL A9 DOOR LOCK CHECK RR 15A PASSENGER A20 IGN B+ CTRL LOCK/UNLOCK SW A15 A25 CONTROL SYSTEM A10 KEY INSERT A18 KEY REMIND SW A11 A16 HOOD OPEN CO-DRIVER UNLOCK DISARMING A7 HOOD OPEN SW A6 A12 LOCK DOOR LOCK RELAY UNLOCK FL FR RL RR 2-STEP UNLOCK ( P ) KEY CYLINDER LOCK/UNLOCK SW DRIVER KEY LOCK ARMING ( P ) PASSENGER DRIVER UNLOCK DISARMING B+ TRUNK OPEN A5 TRUNK OPEN SW A14 TRUNK
R&D / Automotive Electronics 3. RKE FUNCTION 3.1 DOOR LOCK / UNLOCK USING TRANSMITTER 3.1.1 TRANSMITTER LOCK / UNLOCK This system function by using two buttons of the valid Tx is shown at Table 1. Now we define the “VALID Tx” as the ID code (Fixed code + Crypto code) of the Tx is memorized by the Control Unit. Status A Unset B Set Button Function "UNLOCK" All door unlock, Hazard lamp blink twice, Disarming Mode "LOCK" All door lock, Hazard lamp blink once, Arming Mode [Table 1.
R&D / Automotive Electronics 3.1.2 TRANSMITTER DOOR / TRUNK This system function by using two buttons of the valid Tx is shown at Table 2. Now we define the “VALID Tx” as the ID code (Fixed code + Crypto code) of the Tx is memorized by the Control Unit. A Status Button set / unset "DOOR" Function all door lock or unlock according to lock_monitoring status B set / unset "TRUNK" operating trunk solenoid and chirp operating(0.05sec on / 0.45sec off) [Table 2.
R&D / Automotive Electronics [Figure 2. FUNCTION FLOW] 3.2 BURGLAR ALARM At the arming mode, if below signal input is recognized by the Rx, the burglar alarm (audible alarm (siren) and visible alarm(hazard Lamp) ) is activated 8 times during 28 seconds operated and 5 seconds paused. The alarm activating count is the option by customer.
R&D / Automotive Electronics If the above theft detection input is received at the arming mode, the type of theft is memorized at the Rx EEPROM. But the alarm duration is not prolonged even if theft detection signal is recognized during the alarm mode. That is, the Rx ignores the theft detection input until the alarm is finished.
R&D / Automotive Electronics 3.4 SAFETY LOCK(AUTO DOOR LOCK AFTER 30SEC) At the arming mode, if the door / trunk / hood open and the ignition on is not occurred during 30 seconds after all door is unlocked by the Tx unlock button or the Tx door button, then all door is locked again and the Rx also goes to the arming mode. At the case of the safety lock, even though the Rx goes to the arming mode, the EEPROM data of the Rx about alarm is not changed.
R&D / Automotive Electronics Active range requirements shall be met with the receiver mounted in the vehicle in its production intent mounting location and orientation. Range requirements are specified for open, flat, paved terrain, with fair weather (no rain or snow), temperatures between 0°C and 80°C, and fob height between 0.5 and 1.5 meters above the ground surface. Range shall be measured from the center of the vehicle, and is independent of fob orientation.
R&D / Automotive Electronics 4. SYSTEM CONFIGRATION 4.1 RECEIVER 4.1.1 FUNCTION The control unit is operating the section “3. RKE FUNCTION” 4.1.2 ELECTRIC SPEC ITEM DISCRIPTION operating voltage 8V ~ 16V(Test Voltage : 12.6V) standby current MAX 5mA sensitivity -100dbm(Min) operating frequency 315(NA)/433.92(EU)MHz + 5KHz operating temperature -40 ℃ ~ 85℃ Antenna type pole antenna PCB thickness 16mm PCB material FR - 4 [Table 5. Electric specification for Receiver] 4.1.
R&D / Automotive Electronics 4.2 4.2.1 4.2.2 TRANSMITTER ELECTRIC SPEC ITEM DISCRIPTION operating voltage 2.5V ~ 3.2V standby current MAX 1uA operating current Typically 9mA , MAX 14mA output power 2000uV/m modulation FSK operating frequency 315(NA)/433.92(EU)MHz + 3KHz operating temperature -20℃ ~ +70℃ Antenna type PCB Pattern ANTENNA PCB thickness 8mm PCB material FR-4 [Table 6. Electric specification for Transmitter] DATA FORMATION [Figure 4.
R&D / Automotive Electronics unit : us Symbol Characteristic TE ALL Number of TE Min. Typ. Max Basic pulse element 1 260 400 660 TBP PQM bit pulse width 3 780 1200 1980 TP Preamble duration 23 6.0 9.2 15.2 TH Header duration 10 2.6 4.0 6.6 THOP Hopping Code duration 96 25.0 38.4 63.4 TFIX Fixed Code duration 102 26.5 40.8 67.3 TG Guard Time 39 10.1 15.6 25.7 Total Transmit Time 270 70.2 108.0 178.2 1282 833 505 PWM data rate [Table 7.
R&D / Automotive Electronics are installed backwards. Battery replacement shall not require the customer to handle any loose components (i.e. circuit boards, battery clips, etc.). Battery life shall exceed 2 years at 25°C based on usage specified in section 3.1.1, with transmission time corresponding to 1 second duration button press activations. 4.2.5 LED During the normal transmission the led operating is ON.
R&D / Automotive Electronics 5. SYSTEM INPUT/OUTPUT CIRCUIT 5.1.1 SERIAL DATA LINK(NO. A17) It is the line for communicate receiver and diagnostic device. It defines RKE diagnostic protocol regulation(#DPE-AE-RK509603S) 5.1.2 5.1.2.1 ELECTRIC OUTPUT HAZARD LAMP (LEFT : A26, RIGHT : A13) - Type : Normal open Relay(V23072-C1061-A408) - Output Level : Battery voltage to GND - Max. switching current : 2 x 60 A - Max.
R&D / Automotive Electronics - Max. Low Output Level - Max. Output Current - Fault Diagnostic Request - State During Reset - Short Circuit Protection Request - Over Current Protection Request : 1V to GND : 500mA : No : Off : Yes : Yes 5.1.2.5 2 STEP UNLOCK (A16, PROVISION) - Type : Low Side Drive - Max. Low Output Level : 1V to GND - Max. Output Current : 500mA - Fault Diagnostic Request : No - State During Reset : Off - Short Circuit Protection Request : Yes - Over Current Protection Req’d : Yes 5.1.2.
R&D / Automotive Electronics 5.1.3.1 TRUNK KEY CYLINDER UNLOCK SWITCH INPUT(A4) ■ Switch character - Type - Function - Open Resistance - Closed Resistance - Open to Close Time - Close to Open Time - Noise & GND Offset Margin 5.1.3.2 DDRIVER KEY CYLINDER LOCK SWITCH INPUT(A6) ■ Switch character - Type - Function - Open Resistance - Closed Resistance - Open to Close Time - Close to Open Time - Noise & GND Offset Margin 5.1.3.
R&D / Automotive Electronics ■ Switch character - Type : Normally Close Switch to Battery - Function : Switch Closed – HOOD Open Switch Open – HOOD Close - Open Resistance : >2MKΩ - Closed Resistance : <50Ω - Open to Close Time - Close to Open Time : ≤ 5msec : ≤ 5msec - Noise & GND. Offset Margin : ±1V 5.1.3.
R&D / Automotive Electronics 5.1.3.7 IGNITION SWITCH INPUT (A15) ■ Switch character - Type : Normally Open Switch to Battery - Function : Switch Closed – IGNITION is ON - Open Resistance Switch Open – IGNITION is OFF : >2MΩ - Closed Resistance : <50Ω - Open to Close Time : ≤ 5msec - Close to Open Time - Noise & GND. Offset Margin : ≤ 5msec : ±1V 5.1.3.
R&D / Automotive Electronics 6. SIREN 6.1.1 ELECTRIC SPECIFICATION No. Item Unit Specification 1 Operating frequency range KHz 1.5 ~ 4.0 2 Operating Volt. range VDC 6 ~ 16 mA MAX 260 at 12VDC 3 Current Consumption Condition 4 Inrush current A MAX 2 at 12VDC 5 Sound pressure level dB MIN 105 at 1 m/12VDC 6 Tone 7 Sweep Hz 2.7 ± 20% 8 Operating temp. ℃ -30 ~ +100 9 Storage temp. ℃ -40 ~ +110 10 Dimension mm φ 54.5 x H55.0 11 Weight (MAX) gram 107.
R&D / Automotive Electronics 6.1.3 MEASURING METHOD 6.1.4 Internal Oscillating Circuit Title Remote Keyless Entry System Specification Spec. No. DPE-AE-RK019912S Written by Ban Dong Hoon Rev. No. A0 Date th 10 . Nov.
R&D / Automotive Electronics 6.1.5 MECHANICAL CHARACTERISTICS No. Item Test Condition Evaluation standard Stripped wires of lead wires are immersed in rosin for 5 90% min. stripped wires shall solder ability seconds and then immersed in solder bath of +230±5℃ be wet with solder.(except the edge of terminal) for 3±0.5 seconds. Stripped wires are immersed up to 1.5mm from insulation in solder bath of +300±5℃ for 3±0.
R&D / Automotive Electronics The part shall be subjected to 5 cycles. One cycle shall be consisted of:: +100℃ +37℃,98%RH temperature. and humidity cycle test 4 -40℃ 12hrs 6hrs 6hrs Perform a functional check of each unit every 12 hours Title Remote Keyless Entry System Specification Spec. No. DPE-AE-RK019912S Written by Ban Dong Hoon Rev. No. A0 Date th 10 . Nov.