STEVAL-IEGV Smart vehicle tracking system Data brief Features Real-time vehicle tracking system based on GPRS/GSM/GNSS. The vehicle location coordinates are acquired using FASTRAX GPS/GLONASS module and sent over GPRS to the web server-based fleet tracking application Web GUI-based application based on API s provided by third party map provider Open Street Maps can monitor up to vehicles, their known location and status Car lift alarm for anti-theft feature ( MEMSbased) Black box functionality: in case of vehicle crash (detected using MEMS), vehicle status and location parameters are stored in the micro SD card and SMS. In all other cases any alarm notification is through web-based GUI Tamper and panic detection, and alarm Local graphic display of information such as vehicle status, location coordinates, speed, distance covered, GPS strength, GSM signal strength, time and date Ability to send alert message from web application to be show on tracking system display Buzzer on vehicle unit for alarm indication On-board user switch for different actions RoHS compliant Description The STEVAL-IEGV is a smart vehicle tracking system reference design based on GPS- GLONASS/GSM-GPRS. The system is built around the Cortex-M STMFx microcontroller series. Today, tracking and navigation systems for vehicles are extensively used all over the world by public transportation units, fleet owners and individuals, and are essential parts of vehicle telematics systems. The design consists of a vehicle unit (to be installed inside the vehicle) and remote web server application where the vehicle status and movement information may be viewed in an intuitive way on the map. The vehicle unit is built around the Cortex-M STMFx microcontroller, Fastrax GNSS (TESEO II) module and a SAGEM GSM/GPRS module. The vehicle unit gathers the GPS/GLONASS information on geographic coordinates, time, date, speed, in-journey distance traveled and satellites fixed, and sends this information over GPRS to the web server application. The web application shows the current location and status information of the vehicle on open street maps. The same information is displayed locally on the graphical LCD display. This unit also consists of MEMS sensors LISDLH -axis accelerometer, and LGD yaw/pitch/roll gyroscope. This unit also serves as a theft detection unit and senses car lift using MEMS. In case of vehicle crash (detected using MEMS), the vehicle status and location parameters are logged in the micro SD card, and the same information is sent to the administrator over SMS, thereby providing blackbox functionality. October Doc ID 9 Rev / For further information contact your local STMicroelectronics sales office. www.st.com
Schematic diagrams STEVAL-IEGV Schematic diagrams Figure. µsd connections C.uF C PE_MSD_CD R k PE_MSD_CD 9 J CD VDD CS DATA_IN SCLK DATA_OUT R (DNM) PD_CS_MSD PB_SPI_MOSI_MSD PB_SPI_SCK_MSD PB_SPI_MISO_MSD PD_CS_MSD PB_SPI_MOSI_MSD PB_SPI_SCK_MSD PB_SPI_MISO_MSD Figure. Figure. IrDa transceiver EEPROM section C COM VSS.uF VSS PC_USART_Tx_IrDA PC_USART_Rx_IrDA PC_SD_IrDA R C.uF VSS RSV 8 RSV R9 k usd Connector R8 k R R k R k R k U VCC/IRED Anode TXD RXD SD VCC TFBS C U E VCC 8 E SDA R E PB9_IC_SDA_TS PB8_IC_SCL_TS R SCL WC VSS MM-HR / Doc ID 9 Rev
STEVAL-IEGV Schematic diagrams Figure. LCD connector on VTS motherboard Figure. Graphical LCD daughter card Doc ID 9 Rev /
Schematic diagrams STEVAL-IEGV Figure. GPS module interface GPS MODULE INTERFACE U TD TD TMS TRSTN 9 8 TCK Figure. PA9_USART_Tx_GPS PA_USART_Rx_GPS PA9_USART_Tx_GPS PA_USART_Rx_GPS R R GSM module interface 8 9 ADC_IN ADC_IN UART_TX/USB_DM UART_RX/USB_DP UART_RX UART_TX UART_RX UART_TX PPS SPI_DI SPI_DO SPI_CLK SPI_CSN J CON8 J CON8 IT TESEOII V9 XRESET 9 XSTANDBY 8 WAKEUP ODO_IN RFIN VBAT VDDV8 VDD 9 CANTX 8 CANRX CANTX/C_SD CANRX/C_SCLK V9 PA_USART_Tx_GSM PA_USART_Rx_GSM PC_POK_IN_GSM R k PA_USART_CTS_GSM PA_USART_RTS_GSM PA_GPS_RESET PA_GPS_STBY PA8_GPS_WAKEUP C8 uf RF_IN V8 C9 uf PC_ADC_IN_GSM_I/O PA_GPS_RESET PA_GPS_STBY PA8_GPS_WAKEUP Q STR R R k R k VRTC VRTC C HI Antenna PC_GPS_V8 J CON / Doc ID 9 Rev
STEVAL-IEGV Schematic diagrams Figure 8. SIM card section SIM_DATA SIM_CLK SIM_RST VSIM J C M 9 C pf U C pf C pf C pf C nf ESDALCVW Doc ID 9 Rev /
Schematic diagrams STEVAL-IEGV / Doc ID 9 Rev Figure 9. Compatibility between STMFx and STMFx PD_LED_RED PB_IC_SCL_MEMS PB_IC_SDA_MEMS BOOT PE_LD9_EN PE_MSD_CD PA_JTAG_JTMS PC_SD_IrDA PB_BUZZER_PWM BOOT VDDA PB_BUZZER_PWM A A PD_LED_GREEN A OSC_OUT OSC_IN OSC_OUT OSC_IN PC_TAMPER_PIN VRTC PB8_IC_SCL_TS PD_DISP_CS OSC_IN OSC_OUT OSC_IN OSC_OUT PB9_IC_SDA_TS BOOT BOOT PA_GPS_RESET PA_JTAG_JTCK PB PE_PANIC_SWITCH PD_OLED_DISP PB_SPI_SCK_MSD PE_MSD_CD PB_CAN_Rx PC_ADC_IN_GSM_I/O PE_LD9_EN PA_GPS_RESET PC_POK_IN_GSM PA_GYRO_INT PC_SD_IrDA VRTC PD_DISP_CS PE8_OLED_D PD_OLED_RES PC_USART_Tx_IrDA PE9_OLED_D PE_OLED_D PB_IC_SCL_MEMS PA_GPS_STBY PA9_USART_Tx_GPS PE_OLED_D PE_OLED_D PE_OLED_D PA_USART_Rx_GPS PA8_GPS_WAKEUP PE_OLED_D PB_IC_SDA_MEMS PE_OLED_D PA_ACC_INT PB_SPI_MISO_MSD PC_USART_Rx_IrDA PA_USART_CTS_GSM PB_SPI_MOSI_MSD PA_USART_RTS_GSM PA_USART_Tx_GSM PA_USART_Rx_GSM PD_DISP_MODE_SEL PB8_IC_SCL_TS PB9_IC_SDA_TS PB_IC_SCL_MEMS PB_IC_SDA_MEMS RESET# VRTC PC_ACC_INT PB8_IC_SCL_TS PD_CS_MSD PC_GPS_V8 PD_OLED_R/W PB9_IC_SDA_TS PC_TS_INT PD_OLED_E PE_GYRO_INT PB_V8_INH PB_CAN_Tx PB_CAN_Rx PB_CAN_Tx PD_USER_SWITCH STMFX: C9 STMFX: R STMFX: C STMFX: R STMFX: R SUPERCAP STMFX: R9 STMFX: R8 DECOUPLING CAPACITORS C C L uh L uh R M R M U STMF U STMF PD 88 PD 8 PD 8 PD 8 PD 8 PD 8 PD 8 PD 8 PC 8 PC 9 PC 8 PA PA VDD_ VSS_ NC PA PA PA PA 9 PA9 8 PA8 PC9 PC8 PC PC PD PD PD PD 9 PD 8 PD PE PE PE VBAT PC-TAMPER-RTC PC-OSC_IN 8 PC-OSC_OUT 9 VSS_ VDD_ OSC_IN OSC_OUT PC NRST PE PE VSSA 9 PC VDD- 8 PC PC 8 VREF- VREF+ VDDA PA-WKUP PA PA PA VSS_ PA 9 PA PA PA PC PC PB PB PB/BOOT PE 8 PE8 9 PE9 PE PE PE PB 9 PD9 PD8 PB PB PB PB VSS_ 9 PB 8 VDD_ PB PE PE PE PB 9 PB 9 PB 89 BOOT 9 PB 9 PB8 9 PB9 9 PE 9 PE 98 VSS_ 99 VDD_ C nf C nf C pf C pf C C R9 R9 R8.K R8.K C C R k R k R9 K R9 K R R C pf C pf R R C pf C pf C pf C pf C C R.K R.K R K R K R R Y 8MHz Y 8MHz C C C pf C pf J CAN_CONN J CAN_CONN C9 C9 C uf C uf D BAT D BAT R R C8 pf C8 pf R.K R.K R8 R8 C.F C.F C9 pf C9 pf C C BZ BUZZER BZ BUZZER C pf C pf R9.K R9.K Y.8KHz Y.8KHz
STEVAL-IEGV Schematic diagrams Figure. Switch section PANIC SWITCH USER SWITCH R.K R.K R R PD_USER_SWITCH PE_PANIC_SWITCH E E SW SW PUSHBUTTON C SW SW PUSHBUTTON C R R Figure. SWD section R K RESET# C8 RESET SWITCH SW RESET SWITCH R98 k R 9 J8 PB D SWD_CONN R99 R9 k LED BI-COLOUR 8 PC_TAMPER_PIN TAMPER SWITCH PD_LED_GREEN PD_LED_RED USER SWITCH R E PA_JTAG_JTMS PA_JTAG_JTCK RESET# SW R E R8.K SW PUSHBUTTON R k R k R89 k R k R.K SW C SW PUSHBUTTON C R Doc ID 9 Rev /
Schematic diagrams STEVAL-IEGV 8/ Doc ID 9 Rev Figure. V regulator Figure. L9D battery charger Figure. Voltage regulators V BAT_V BOOST_V BAT_V BAT_V V R R R9 k R9 k R 9k R 9k C nf C nf D DNM------Transil D DNM------Transil J BAT_V J BAT_V D8 LED D8 LED D STPSLA D STPSLA C uf/v C uf/v C C C nf C nf D9 LED D9 LED L uh L uh D STPSLA D STPSLA F Fuse-R F Fuse-R D STPSLA D STPSLA R R C C C uf C uf R R R k R k L uh L uh C C U8 L98 U8 L98 SS_INH OSC OUT VCC COMP FB OUT NC NC NC 8 NC 9 NC NC NC BOOT C C C.nF C.nF D STPSLA D STPSLA V BAT_.V BAT_.V BAT_V L9_SD L9_SD R k R k R9 k R9 k R R C.uF/V C.uF/V C8 uf/v C8 uf/v R k R k R K R K R9 R9 U L9D U L9D VIN VIN_SNS ST ST TPRG SD TH 8 VO_PRG 9 VO_SNS V_OUT V_REF I_END V_PRE I_PRG I_PRE R K R K R R C nf C nf R.K R.K Q STR Q STR C nf C nf D GREEN-LED D GREEN-LED R.k R.k R k R k D YELLOW-LED D YELLOW-LED V V8 V PB_V8_INH PE_LD9_EN V9 V V8 PB_V8_INH PE_LD9_EN V9.V REGULATOR.9V REGULATOR.8 V REGULATOR R8 K R8 K C C C C U LD9PMTR U LD9PMTR INH INPUT VOUT ADJ/NC C C + C9 uf + C9 uf R k R k U9 LDS98MI8R U9 LDS98MI8R BYPASS VOUT VIN INHIBIT C8 C8 U LD9_DPAK U LD9_DPAK IN OUT C9 nf C9 nf C uf C uf R K R K D STTH D STTH C C C uf C uf R k R k C8 uf C8 uf
8 STEVAL-IEGV Schematic diagrams Figure. Boost using STLDC8 Figure. Figure. Battery protection and boost/charger synchronization Gyroscope section C uf C C nf C nf R k PB_IC_SCL_MEMS PB_IC_SDA_MEMS R8 DNM----- R8 R R9 U VDD_IO SCL/SPC LGD SDA SAO VDD RES PLLFILT CS INT INT RES RES RES RES RES 9 R8 k R8 R8 PA_GYRO_INT PE_GYRO_INT Doc ID 9 Rev 9/
8 Schematic diagrams STEVAL-IEGV Figure 8. Temperature sensor PB9_IC_SDA_TS R k U ADDR/THERM SDA EVENT VDD SCL STTS C R R PB8_IC_SCL_TS R PC_TS_INT Figure 9. Accelerometer section PC_ACC_INT PA_ACC_INT R8 PB_IC_SCL_MEMS PC_ACC_INT PA_ACC_INT C U VDD_IO NC NC SCL R88 SDA R R8 C8 LISDLH SDO RESERVED CS VDD INT RESERVED INT R8 PB_IC_SDA_MEMS 9 C9 uf PC_ACC_INT PA_ACC_INT R8 / Doc ID 9 Rev
STEVAL-IEGV Revision history Revision history Table. Document revision history Date Revision Changes -Oct- Initial release. Doc ID 9 Rev /
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