AEK-COM-GNSST31 Data brief GNSS evaluation board based on Teseo-LIV3F for SPC5 microcontrollers Features * * * * * * * * * * * * * Product summary GNSS evaluation board based on AEK-COMGNSST31 Teseo-LIV3F for SPC5 microcontrollers Tiny GNSS module Teseo-LIV3F Code generator, quick resource configurator and Eclipse SPC5-STUDIO development environment for SPC5 MCUs AutoDevKit library plugin for SPC5STUDIO STSWAUTODEVKIT Global navigation satellite system software expansion for STM32Cube X-CUBE-GNSS1 Sensitivity: -162 dBm indoor (tracking mode) Interfaces: - UART and IC ports - Configurable digital I/O timepulse - EXTINT input for wakeup NMEA protocol Assisted GNSS: - Predictive autonomous - Predictive server-based - Real-time server-based Compatible with SPC5 LNA and SAW filter on the RF path SMA female antenna connector Battery holder Highly compact design: 70 x 65 mm Operating supply voltage: 3.3 - 5 V Ambient temperature: -40/+85 C Part of the AutoDevKitTM initiative RoHS and WEEE compliant Description The AEK-COM-GNSST31 evaluation board is based on the certified Teseo-LIV3F global navigation satellite system (GNSS) module with embedded TeseoIII single die standalone positioning receiver IC. The tiny, affordable, and easy-to use module guarantees superior accuracy and reduced time to first fix (TTFF) thanks to the on-board 26 MHz temperature compensated crystal oscillator (TCXO) and dedicated 32 KHz real-time clock (RTC) oscillator. The evaluation package is used in conjunction with the X-CUBE-GNSS1 firmware to provide the necessary acquisition, tracking, navigation and data output functionality without external memory support. The AEK-COM-GNSST31 evaluation board can be readily connected with an SPC5 MCU for automotive application development as part of the AutoDevKitTM initiative. Tracking Applications Smart City GNSS/GPS Mobility Services DB4131 - Rev 1 - February 2020 For further information contact your local STMicroelectronics sales office. www.st.com AEK-COM-GNSST31 Block diagram 1 Block diagram Figure 1. AEK-COM-GNSST31 block diagram DB4131 - Rev 1 page 2/7 DB4131 - Rev 1 2 Schematic diagrams Figure 2. AEK-COM-GNSST31 schematic diagram (1 of 3) CN11 +5V 1 1 2 3 4 5 6 CN5 10 9 8 7 6 5 4 3 2 1 8 7 6 5 4 3 2 1 CN9 D15/SCL D14/SDA D13/SCK D12/MISO D11/MOSI/PWM D10/CS/PWM D9/PWM D8 D7 D6/PWM D5/PWM D4 D3/PWM D2 D1/RX D0/TX Pass-Through: Female on Bottom - Male on Top CN10 1 2 PC8 PC9 4 3 PC6 PB8 6 5 PC5 PB9 7 8 AVDD U5V 9 10 PD8 GND 11 12 PA12 PA5 13 14 PA11 PA6 15 16 PB12 PA7 18 17 PB11/NC PB6 PC7 19 20 GND PA9 21 22 PB2 23 24 PB1 PA8 25 26 PB15 PB10 PB4 27 28 PB14 PB5 29 30 PB13 PB3 32 31 AGND 33 34 PC4 PA10 PA2 36 35 NC/PF5 37 38 NC/PF4 PA3 CN8 NM 3 Pass-Through: Male on Bottom - Female on Top D8 4 D2 5 D7 6 N.C. 7 D14/SDA 8 D15/SCL NM Pass-Through: Male on Bottom - Female on Top SX side 2 +3V3 ST morpho A0 A1 A2 A3 A4 A5 Arduino Pass-Through: Male on Bottom - Female on Top CN6 1 2 3 4 5 6 7 8 Arduino +3V3 Arduino ST morpho Pass-Through: Male on Bottom - Female on Top Arduino PC10 PC12 VDD BOOT0 NC/PF6 NC/PF7 PA13 PA14 PA15 GND PB7 PC13 PC14 PC15 PH0/PF0/PD0 PH1/PF1/PD1 VLCD/VBAT PC2 PC3 Pass-Through: Female on Bottom - Male on Top CN7 2 1 PC11 3 4 PD2 IOREF 5 6 E5V 8 7 GND 10 9 11 12 IOREF 14 13 RESET 15 16 +3V3 17 18 +5V 19 20 GND 21 22 GND 24 23 VIN 26 25 27 28 PA0 30 29 PA1 31 32 PA4 34 33 PB0 35 36 PC1 37 38 PC0 9 IOREF IOREF DX side +3V3 +VCC_IO J6 1 PPS 2 1 2 HEADER1x2 Open J7 D6/PWM JR9 SHUNT 2.54 mm. J8 1 JR11 SHUNT 2.54 mm. D15/SCL LDS3985PU33R D8 1 RX 2 1 2 HEADER1x2 Closed R35 RX C26 1 10R C27 1uF 16V SMD0603 2 SMD0603 2u2F-16V-0603 SMD0603 +VCC_IO 3 Vin Vinh N.C. Gnd Vout Bypass 7 I2C_CLOCK +5V JR3 SHUNT 2.54 mm. J3 2 1 2 HEADER1x2 {Default} Closed SYS_WAKEUP 2 1 2 HEADER1x2 Closed {Default} I2C_DATA D1/RX 1 SYS_RESETn D0/TX 1 J13 1 1 U9 J2 2 1 2 HEADER1x2 Closed {Default} R36 2 1 2 HEADER1x2 Open TX TX 1 2 HEADER1x2 Open D2 1 C29 33n SMD0402 N.M. C28 SMD0603 +3V3 2 1 2 HEADER1x2 Closed {Default} IOREF R38 0R0 SMD0603 2.2uF 16V SMD0603 J4 2 6 5 4 2 1 2 HEADER1x2 Open {Default} J5 2 1 2 HEADER1x2 Closed {Default} J10 D9/PWM SYS_WAKEUP J9 1 D13/SCK J12 1 JR13 SHUNT 2.54 mm. D7 D2 2 1 2 HEADER1x2 Open J11 1 JR12 SHUNT 2.54 mm. D14/SDA 2 1 2 HEADER1x2 Open 1 D4 Gnd PPS JR4 SHUNT 2.54 mm. R37 N.M. SMD0603 R39 N.M. SMD0603 AEK-COM-GNSST31 Schematic diagrams page 3/7 DB4131 - Rev 1 Figure 3. AEK-COM-GNSST31 schematic diagram (2 of 3) U8 UART_TX R33 10K SMD0603 IOREF 5 4 1 Vcc A Y GND OE 2 3 TX R34 SN74LV1T126 size SC70 GND C10 1F SMD0402 3 5 4 2 I2C_SDA I2C_SCL 10 RF_IN 11 12 IOREF VccA VccB A1 B1 A2 B2 GND OE C11 SMD0402 1F 7 8 1 6 IOREF GND AntOFF AntOFF 13 VCC_RF VCC_RF 14 Vant I2C_DATA I2C_CLOCK R2 TXS0102 VSSOP GND U1Teseo-LIV3F (SPGNSS-LIV3F) RF_IN U4 I2C_DATA I2C_CLOCK RESETn Vant 15 I2C_SDA 16 I2C_SCL 17 TP1 18 2K1 SMD0603 C12 SMD0402 4.7F 100nF SMD0402 C13 C14 100pF GND 200k NM SMD0603 GND GNSS Module RESETn GND R1 +VCC_IO C22 1F SMD0402 2K1 SMD0603 C23 4.7F GND TX 9 RESETn GND_RF 8 VCC RF_IN GND_RF AntOFF 1PPS SDA2 RX SCL2 TX 2 HEADER1x2 5 WAKEUP 4 PPS 3 UART_RX 2 UART_TX 1 J15 2 2 HEADER1x2 JR15 SHUNT 2.54 mm. +VBatt PPS GND GND GND 1 Closed JR14 SHUNT 2.54 mm. 1 GND Reserved2 1 6 Vbatt Wake-Up Reserved1 Closed GND RESETn J14 2 +VCC_IO 7 VCC_IO VCC_RF 1 SMD0402 R30200k SMD0603 +VCC_IO GND RESETn 1 2 3 U5 TXB0101DCK VccA VccB GND OE B A C16 1F SMD0402 6 5 4 +VCC_IO GND SYS_RESETn D2 SMD0603 RESETn Q1 200k NM R2 GND WAKEUP 1 2 3 U6 TXB0101DCK VccA VccB OE GND B A GND +VCC_IO SMD0402 C19 1F SMD0402 6 5 4 SMD0402 GND C21 1F GND UART_RX 1 2 3 U7 TXB0101DCK VccA VccB GND OE B A 6 5 4 IOREF 2 SMD0402 R1 MUN2214T1G +VCC_IO C18 1F R9 R10 330R SMD0603 3 R31 SMD0603 +VCC_IO GND GND SYS_WAKEUP SYS_WAKEUP +VBatt D1 +VCC_IO Red_LED GND SMD0603 R32 0R0 Battery R8 330R SMD0603 SYS_RESETn C17 10nF SMD0402 GND IOREF 1 R11 0R SMD0603 PPS Green_LED C15 1F SMD0402 D3 SMD0603 1k5 NM SMD0603 BAT20J VL1 BATTERY HOLDER (CR2032) GND GND C20 10nF NM C24 1F SMD0402 GND RX RX GND AEK-COM-GNSST31 Schematic diagrams page 4/7 VCC_RF RF In Section R22 0R NM SMD0402 R23 0R0 AntOFF C1 1nF SMD0402 SMD0402 56nH SMD0402 R17 0R NM SMD0402 C5 3.9pF NM SMD0402 AI A0 GND Z1 3 1 B4327 RF_IN 120pF SMD0402 R18 0R NM SMD0402 GND C9 GND C3 4 4 L2 D4 ESDARF02-1BU2CK 6.8nH SMD0402 GND 120pF SMD0402 5 1 SMA GND L1 C2 Ant_In GND U2 BGA824N6 GND-RF GND VCC 2 PON 6 R24 10K SMD0402 CN1 R15 0R SMD0402 2 3 5 DB4131 - Rev 1 Figure 4. AEK-COM-GNSST31 schematic diagram (3 of 3) GND 56pF SMD0402 SMD0402 R28 0R0 SMD0402 R26 0R0 NM Vant Current_L U3 R20 0R SMD0402 1 2 C7 1F SMD0805 3 GND GND Vout Vin GND ON OC TPS22943 R21 100k R27 5 4 R25 0R0 NM SMD0402 0R0 R29 3R SMD0402 NM VCC_RF SMD0402 C8 2.2F SMD0805 GND SMD0603 AEK-COM-GNSST31 Schematic diagrams page 5/7 AEK-COM-GNSST31 Revision history Table 1. Document revision history DB4131 - Rev 1 Date Version 03-Feb-2020 1 Changes Initial release. page 6/7 AEK-COM-GNSST31 IMPORTANT NOTICE - PLEASE READ CAREFULLY STMicroelectronics NV and its subsidiaries ("ST") reserve the right to make changes, corrections, enhancements, modifications, and improvements to ST products and/or to this document at any time without notice. Purchasers should obtain the latest relevant information on ST products before placing orders. ST products are sold pursuant to ST's terms and conditions of sale in place at the time of order acknowledgement. Purchasers are solely responsible for the choice, selection, and use of ST products and ST assumes no liability for application assistance or the design of Purchasers' products. No license, express or implied, to any intellectual property right is granted by ST herein. Resale of ST products with provisions different from the information set forth herein shall void any warranty granted by ST for such product. ST and the ST logo are trademarks of ST. For additional information about ST trademarks, please refer to www.st.com/trademarks. All other product or service names are the property of their respective owners. Information in this document supersedes and replaces information previously supplied in any prior versions of this document. (c) 2020 STMicroelectronics - All rights reserved DB4131 - Rev 1 page 7/7