NIDEC MOBILITY G8D-365M Tire Pressure Monitor Receiver User Manual 1
OMRON Automotive Electronics Co. Ltd. Tire Pressure Monitor Receiver 1
User Manual
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| Document ID | 320824 |
| Application ID | KNRlAJQHveczyKebMwo87A== |
| Document Description | User Manual |
| Short Term Confidential | No |
| Permanent Confidential | No |
| Supercede | No |
| Document Type | User Manual |
| Display Format | Adobe Acrobat PDF - pdf |
| Filesize | 58.71kB (733879 bits) |
| Date Submitted | 2003-04-24 00:00:00 |
| Date Available | 2003-04-24 00:00:00 |
| Creation Date | 2003-03-06 21:17:32 |
| Producing Software | Acrobat Distiller 5.0 (Windows) |
| Document Lastmod | 2003-04-24 20:28:01 |
| Document Title | 1 |
| Document Creator | Word 用 Acrobat PDFMaker 5.0 |
| Document Author: | 商å“技術部 |
FCC ID:OUCG8D-365M G8D-365M Receiver, Tire Pressure Monitoring System FCC ID:OUCG8D-365M Table of contents 1. Constitution of the Tire Pressure Monitoring System for vehicle....................... 2. User’s manual (provisionally) .......................................................................... 3. Block diagram ................................................................................................ 4. Specification ................................................................................................... 5. Features .......................................................................................................... 6. PCB 6.1 Circuit diagram ........................................................................................... 6.2 Parts layout (front)...................................................................................... 6.3 Pattern layout (front).................................................................................... 6.4 Parts layout (back).................................................................................... 10 6.4 Pattern layout (back).................................................................................... 11 6.5 Parts list ...................................................................................................... 12 7. Connector ..................................................…................................................. 16 8. Photographs .................................................................................................... 17 -1- FCC ID:OUCG8D-365M 1. Constitution of the Tire Pressure Monitoring System for vehicle Tire Pressure Monitoring System is the system that receives the information, from transmitters installed at each tire, about the inflation pressure or temperature of tires detected by the sensor, so that the system can detect the abnormality of tires like fallen inflation pressure. This system consists of transmitter, receiving antenna, and receiver. The transmitter sends information of tire, read by the sensor, in the form of radio wave at constant intervals. The receiver is fixed inside the vehicle. If IG is OFF, it works intermittently to prevent the battery exhaustion. When the receiver detects the synchronous code and IG is ON, it runs continuously to receive the signals completely. If the received code is normal, the system will not inform the user. As shown below, in the case that the transmitter sends information that the tire is in abnormal condition, and that the receiver system has a trouble, the system will inform the user with lighting up Warning bulb. TPMS Warning bulb is lit by the following situations. Bulb disconnection detection output(The warning light is On for 3 sec. when IG=OFF→ON) Tire air pressure warning output (Warning light is ON) System warning output (Warning light is blinking) Tire Antenna Transmitter 1 Receiver Pressure sensor 1 Receiving circuit CPU Transmission circuit Transmitter 2 EEPROM CPU Transmitter 3 Transmitter 4 Bulb Transmitter SP Figure 2-1 System Architecture -2- FCC ID:OUCG8D-365M 2. User’s manual (provisionally) Warning light METER PANEL Tire inflation pressure warning light This light illuminates if the inflation pressure of any tire (except for compact spare tire) drops while the ignition key is in the “ON” position. It normally illuminates when the ignition key is turned to the “ON” position and goes off a few seconds later. If the warning light illuminates while driving Avoiding hard braking, hard steering, and high speeds, drive to the nearest gas station or authorize car dealer and adjust the tire inflation pressures.(except for compact spare tire) If the warning light blinking while driving It is thought abnormality of the device, go to the check to the nearest car dealer as soon as possible. Whenever the tires and wheels are replaced with new ones Tire inflation pressure sensors must be fitted on the new wheels and their ID codes must be programmed into the system. Have tire and wheel replacement performed by an authorized car dealer to avoid the risk of damaging the tire inflation pressure sensors. CAUTION ・ If the tire inflation pressure warning-light does not illuminate when the ignition key is turned to the “ON” position the system may be faulty. ・ If the tire inflation pressure warning light illuminates while you are driving, avoid hard braking, hard steering, and high speeds. Otherwise, you could make the vehicle unstable and have a serious accident. ・ The tire inflation pressure warning light may not illuminate immediately in the event of a tire blowout or rapid leak.. -3- FCC ID:OUCG8D-365M 3. Block diagram This is the block diagram concerning to the receiver. POWER SOURCE(5V) RECEIVING MODULE 12V (car battery) IG1 data 16BIT CPU bulb output OUTPUT CIRCUIT EEPROM input Signal of vehicle status Figure 3.1 block diagram of the receiver -4- FCC ID:OUCG8D-365M 4. Specification 4.1 CPU Type M30102(16bit) Manufacturer: MITSUBISHI ROM 24K bytes RAM 1Kytes Clock frequency 8.00MHz Clock frequency generation Crystal oscillator Package 48pin QFP 4.2 RF block Local clock frequency 325.7MHz Frequency generation Crystal resonator Modulation Single Superheterodyne Bandwidth ±200KHz Sensitivity 30dBuV 4.3 Others Dimension 83mm×64mm×31mm Weight 120g Battery Car Battery (DC 12V) Operation Voltage DC 12V, 20mA Operation temperature -30℃ ~ +80℃ -5- FCC ID:OUCG8D-365M 5. Features Battery saving The receiver works intermittently to reduce the battery consumption. The microcomupter embedded on the receiver controlls the power supply for the RF circuit. In case of the microcomputer detects the wake-up signal during the power supplied, the microcomputer continue supplying the power until the data frame will be received. -6- FCC ID:OUCG8D-365M 6. PCB 6.1 Circuit diagram Figure 6.1 Circuit diagrams -7- FCC ID:OUCG8D-365M 6.2 Parts layout (front) Figure 6.2 Parts layout (front) -8- FCC ID:OUCG8D-365M 6.3 Pattern layout (front) Figure 6.3 Pattern layout (front) -9- FCC ID:OUCG8D-365M 6.4 Parts layout (back) - 10 - FCC ID:OUCG8D-365M 6.5 Pattern layout (back) Figure 6.4 pattern layout (back) - 11 - FCC ID:OUCG8D-365M 6.6 Parts List № PART NAME MANUFACTURE QTY TYPE REMARKS SPECIFICATION CPU Mitsubishi 1 M30102F3TFP CPU1 Regulator IC SEIKO Ins 1 S-875039BUP-ABD-T2 IC1 EEPROM IC SEIKO Ins 1 S-93C66AMFN-TB OP-AMP TOSHIBA 1 TC75S55FU-TE85L IC4 Reception IC Infinion technologies 1 TDA5211GEG IC3 Reset IC Mitsumi 1 MM1185AFFE IC2 Resistor array KOA 4 CN1J4TTD473J 47k Chip resistor 5 RK16CAY100J-T1 100 Chip resistor 6 RK16CAY100KJ-T1 100k 10 Chip resistor 2 RK16CAY10KJ-T1 10k R12,R25 11 Chip resistor 1 RK16CAY160KJ-T1 160k R14 12 Chip resistor 4 RK16CAY1KJ-T1 1k R108,R109,R113, R114 13 Chip resistor 1 RK16CAY1MJ-T1 1M R121 14 Chip resistor 1 RK16CAY15KJ-T1 15k R15 15 Chip resistor 2 RK16CAY22KJ-T1 22k R4,R26 16 Chip resistor Matsushita 1 ERJ3EKF3303V 330k R118 17 Chip resistor 1 RK16CAY39KJ-T1 39k R111 18 Chip resistor 1 RK16CAY4.7KJ-T1 4.7k R9 19 Chip resistor 2 RK16CAY470KJ-T1 470k R35,R120 20 Chip resistor 11 RK16CAY47KJ-T1 47k R3,R5,R11,R19,R20, R21,R22,R23,R37, R49,R58 21 Chip resistor 2 RK16CAY5.1KJ-T1 5.1k R45,R107 22 Chip resistor 1 RK16CAY5.6KJ-T1 5.6k R50 23 Chip resistor 1 RK16CAY560KJ-T1 560k R112 - 12 - 4K IC5 RA1,RA2,RA3,RA4 R106,R101,R102, R103,R105 R104,R110,R115, R117,R122,R123 FCC ID:OUCG8D-365M № PART NAME MANUFACTURE QTY TYPE REMARKS SPECIFICATION 24 Chip resistor 1 RK16CAY75KJ-T1 75k R36 25 Chip resistor 1 RK16CAY820KJ-T1 820k R116 26 Chip resistor 1 RK32CAY1.5KJ-T1 1.5k R6 27 Chip resistor 2 RK32CAY22KJ-T1 22k R55,R56 28 Chip resistor 4 RK32CAY390J-T1 390 R51,R52,R53,R54 Murata 1 GRK39CH101J50PT 100p C14 Murata 1 GRK39CH221J50PT 220p C126 Murata 2 GRK39CH270J50PT 27p C133,C134 Murata 4 GRK39R103K50PT 0.01u C112,118,119,C121 Murata 2 GRK39CH471J50PT 470p C18,C128 Murata 4 GRK39CH040C50PT 4p Murata 4 GRK39CH080D50PT 8p Murata 2 GRK39CH220J50PT 22p C12,C13 Murata 9 GRK39R102K50PT 1000p C6,C15,C17,C22,C24 C116,C117,C120, C130 Murata 2 GRK40R104K50PT 0.1u C2,C3 Murata 8 GRK39R104K16PT 0.1u C4,C5,C8,C9,C19, C20,C122,C127 Murata 1 GRK39R223K50PT 0.022u C11 Murata 2 GRK39R473K25PT 0.047u C129,C131 Murata 1 GRK39R683K16PT 0.068u C16 Murata 1 GRK39R472K50PT 4700p C125 44 Electrolytic capacitor Nihon Chemikon 1 MVA35VC100MF80 100U C1 45 Electrolytic capacitor Nihon Chemikon 1 MVA16VC470MH10 470U C7 46 Diode Rohm 2 1SS355TE-17 D4,D7 47 Diode Shindengen 1 D1F60-4063 D1 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 Multi-layer capacitor Multi-layer capacitor Multi-layer capacitor Multi-layer capacitor Multi-layer capacitor Multi-layer capacitor Multi-layer capacitor Multi-layer capacitor ceramic Multi-layer capacitor ceramic Multi-layer capacitor Multi-layer capacitor Multi-layer capacitor Multi-layer capacitor Multi-layer capacitor Multi-layer capacitor ceramic ceramic ceramic ceramic ceramic ceramic ceramic ceramic ceramic ceramic ceramic ceramic ceramic - 13 - C101,C102,C103, C104, C105,C106,C107, C108 FCC ID:OUCG8D-365M № PART NAME MANUFACTURE QTY TYPE REMARKS SPECIFICATION 48 Diode Rohm 1 DAN202UT106 D5 49 Diode Shindengen 1 M1F60-4063 D3 50 Transistor Sanyo 1 2SC3651-TD TR1 51 Transistor Rohm 1 2SD1834T100 TR9 52 Digital transistor Rohm 2 DTA114EUAT106 TR3,TR5 53 Digital transistor Rohm 1 DTA114YUAT106 TR8 54 Digital transistor Rohm 2 DTC114EUAT106 TR6,TR102 55 Digital transistor Rohm 1 DTC123EUAT106 TR4 56 Transistor NEC 1 uPA801T-T1 TR101 2 MMSZ4689-T1 ZD2,ZD7 1 MMSZ4704-T1 ZD1 2 MMSZ5252B-T1 ZD3,ZD5 57 Zener diode 58 Zener diode 59 Zener diode ONSEMICONDUC TOR ONSEMICONDUC TOR ONSEMICONDUC TOR 60 SAW filter Seiko Epson 1 FF-585 61 Ceramic filter Murata 1 SFECV10M7DF00-R0 62 Inductor Murata 2 LQP11A33NG00 33n L107,L108 63 Inductor Murata 7 LQP11A68NG00 68n L101,L102.L103, L104,L105,L106, L110 64 Ferrite beads Murata 1 BLM11A102SPT 65 Crystal oscillator Japan Radio 1 AT-51CD2 (8.00MHZ) 66 Crystal oscillator Japan Radio 1 AT-51CD2 (10.176MHZ) XT1 67 Connector Yazaki 1 7382-5668 CN1 68 Connector Hirose 1 GT13-1/1/1/1P-DS 4p CN2 69 Connector Molex 1 53307-1091 10p CN3 70 Tapping screw 2 SWCH MFSN-PB M3×6 Screw for CN1 71 PWB 1 CEM3 - 14 - 315MHZ F101 F102 L1 XT2 FCC ID:OUCG8D-365M № PART NAME MANUFACTURE QTY TYPE 72 Label 73 Case 74 Cover 75 Bracket 1 SECC REMARKS SPECIFICATION 76 ELEP coat 77 Chip resistor 1 RK16CAY00-T1 C109 Murata 1 GRK39CH060D50 6p C111 Murata 1 GRK39CJ030C50 3p C114 80 Chip resistor Matsushita 1 ERJ6GEYJ473V 47k R7 81 Chip resistor Matsushita 1 ERJ3EKF1603V 160k R119 Multi-layer capacitor Multi-layer 79 capacitor 78 ceramic ceramic - 15 - FCC ID:OUCG8D-365M 7. Connector This is the pin assignment of the connector. No. I/O 1 INPUT Battery 12V 2 INPUT TEST MODE Active High 3 INPUT Velocity Signal 4 Assignment Memorandum (not used) 5 IN/OUT K-line Communication Line 6 INPUT Ignition switch Active High 7 (not used) 8 (not used) 9 10 OUTPUT Indicator Active Low Ground GND - 16 - FCC ID:OUCG8D-365M 8. Photographs Figure 8.1 appearance (front view) Figure 8.2 appearance (back view) - 17 - FCC ID:OUCG8D-365M Figure 8.3 PCB assy (front view) Figure 8.4 PCB assy (back view) - 18 - 1. For 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. CAUTION Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment. 2. For Canada This device complies with Industry Canada Standard RSS-210. 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 certification/registration number only signifies that the Industry Canada technical specifications were met.
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