EVAL-L99DZ200

EVAL-L99DZ200 Data brief Door zone evaluation board based on L99DZ200G Features • Motherboard • • • • • • • Board functionality based on L99DZ200G, automotive front door device with LIN and CAN providing dual H-bridge driving Mother Board size: 150 mm length x 120 mm width Daughter Board size: 36.8 mm length x 35.6 mm width Board reverse battery protection with STL64N4F7AG Power MOSFET H-bridge with 4 x STL76N4F7AG Power MOSFETs Heater and electro chrome with 2x STL19N3LLH6AG Power MOSFETs FDTI for PC control via USB All ST components are automotive-grade qualified Application • • Front drives Rear door zone architecture Power trunk / tailgate Description The EVAL-L99DZ200 evaluation board is designed for the Front drives Rear door zone architecture and for the power trunk applications. Dauther board Product status link EVAL-L99DZ200 Product summary Order code EVAL-L99DZ200 Related device L99DZ200G motherboard and daughter board The board is composed by a motherboard and a daughter board. The motherboard, which is based on the SPC582B60 microcontroller, provides the logic section for monitoring and driving the L99DZ200G device assembled on the daughter board. With the aim of facilitating the use and configuration of the board, STMicroelectronics provides a dedicated user-friendly software with a graphic user interface (GUI). This GUI enables the user to set the L99DZ200G control parameters and at the same time shows real time diagnostics information as current output and battery voltage monitoring. DB4431 - Rev 1 - March 2021 For further information contact your local STMicroelectronics sales office. www.st.com EVAL-L99DZ200 Application schematics and layout 1 Application schematics and layout 1.1 Overall application diagram Figure 1. EVAL-L99DZ200 application diagram DB4431 - Rev 1 page 2/12 EVAL-L99DZ200 EVAL-L99DZ200 motherboard 1.2 EVAL-L99DZ200 motherboard Figure 2. EVAL-L99DZ200 motherboard top layer Figure 3. EVAL-L99DZ200 motherboard bottom layer DB4431 - Rev 1 page 3/12 EVAL-L99DZ200 EVAL-L99DZ200 motherboard Figure 4. EVAL-L99DZ200 motherboard schematics (1 / 2) U100 1 2 C100 47uF VS RES C101 220nF J100 5V perm 5 4 VO VCR GND GND +5V_PERM 2 JP101 uC supply 3 Mounting holes 5V1 GND GND Reset S100 S101 S103 S104 5V_uC LED100 Green LED L5300 GND +5V_PERM R101 1k C102 220nF 6 STTH102AY 1 D100 JP100 Vbat JP102 R100 1k PD14 R102 1k PD11 R103 6k8 GND GND R104 1k PE3 JP103 CM/DIR J101 J102 LED1 LED2 R107 1k R108 1k LED101 Ind1 BTN2 LED2 LED1 UART_RX CSN_Ext JCOMP TCK TMS TDI TDO BTN3 LED102 Ind2 GND GND LED3 50 +5V_PERM LED103 Ind3 R116 1k J104 T100 BSS138 LED3 SP100 GPIO_uC_1 GPIO_uC_2 GPIO_uC_3 GPIO_uC_4 40 39 38 37 CAN_RX_Ext CAN_TX_Ext 47 46 45 44 PC1 PC2 PC3 PC4 PC5 PC6 PC7 PC8 PC9 GND BTN2 BTN3 Demo GND GND GND C106 1uF GND C111 470nF GND 5V_uC C119 4,7uF GND UART_TX UART_RX GND GPIO_C +5V_PERM 5V_uC 11 12 13 14 15 16 17 18 19 20 J106B n.c. GND UART_TX UART_RX GPIO_D GPIO_C GPIO_B GPIO_A +5V +Vcc_uc DB_COMM DB4431 - Rev 1 81 78 77 48 66 63 64 61 60 62 82 83 79 80 C104 10pF C105 C107 47nF GND C112 10nF GND C120 100nF GND 10pF C113 470nF C109 47nF GND C114 10nF GND C121 100nF GND X100 C108 47nF GND GND 40MHz C122 100nF GND J106A GND uc_GPIO uc_GPIO uc_GPIO uc_GPIO CAN_RX CAN_TX +3V3 GND +12V DB_COMM GND C115 10nF GND C116 100nF GND C123 100nF GND 10 9 8 7 6 5 4 3 2 1 C110 47nF C124 100nF 12 11 10 9 8 7 6 5 4 3 97 96 95 94 93 92 54 55 19 41 51 69 31 29 87 56 20 42 52 76 98 U101 G0 - PA0 - I9- W22-E14 G1 - PA1 - C2RX-W19-E11-L1RX G2 - PA2 - C2TX-W18-E10-L1TX G3 - PA3 - W6-E28-L10RX-A91-SOUT2 G4 - PA4 - C4TX-WESR-E1-CS0_1 G5 - PA5 - JCOMP G6 - PA6 - TCK G7 - PA7 - TMS G8 - PA8 - E17 - TDI G9 - PA9 - E18 - TDO G10 - PA10 - I2-C4TX-E15-L2TX-CS0_3 G11 - PA11 - C2RX-C4RX-W24-E16-L2RX-SCK3 G12 - PA12 - C1TX-W20-E12-L0TX-CS0_2 G13 - PA13 - C1RX-W21-E13-L0RX G15 - PA15 - I14-CS1_0 SCK2-E22-PD0-G48 SCK0-E6-W14-C1RX-C3RX-PD4 - G52 SOUT0--E7-W15-C5TX-PD5 - G53 SCK1-E0-PD6 - G54 SOUT1- L15TX-E31-PD7 - G55 SIN2-A92-L10TX-E29-W7- PD8 - G56 CS3_2-A81-E23-W16- PD10 - G58 SIN0-A63-E21- PD11 - G59 SIN3-A15-E14- PD12 - G60 SCK3-A16-E15- PD13 - G61 C0TX - PD14 - G62 E0-C0RX - PD15 - G63 CS2_3-A11-E11- PE0 - G64 CS1_3-A12-E12- PE1 - G65 SOUT3-A13-E13-I11- PE2 - G66 ClkOut0-CS0_3-A17-E16- PE3 - G67 G16 - PB0 - A67-CS0_2 G17 - PB1 - E21 - A66 G18 - PB2 - E8 - A65 G19 - PB3 - E22 - A64 CS0_0-E3-W11-C0TX- PE5 - G69 CS1_0-L1RX-E4-W12-C0RX- PE6 - G70 G24 - PB8 - W5-E27-I2C_SCL-A90-SCK2 CS6_0-L1TX-E5-W13-C1TX-C3TX- PE7 - G71 G25 - PB9 - C1RX-W4-E26-I2C_SDA-L0RX-A89-SIN2-CS0_2 G26 - PB10 - C1TX-W3-E25-L0TX-A82-SOUT2-CS1_2 SIN0-E9-W17-C5RX- PE9 - G73 G27 - PB11 - E24-CS0_0-CS2_2 SIN3-CS3_2-L0R-E17-W25-C5TX-I3- PE10 - G74 SOUT3-L0TX-E18-W26-C5RX- PE11 - G75 PC0 - G32 - I1-E10-A10-CS3_3 CS5_1-E25- PE12 - G76 PC1 - G33 - W8-E9-L15RX-A6-CS4_3 PC2 - G34 - I10-E8-L15TX CS2_1-L2RX-E20-W31-C6RX-I6- PF2 - G82 PC3 - G35 - C6RX-W2-E7-L2RX-SIN3 CS1_1-L2TX-E2-W9-C6TX-I5- PF3 - G83 PC4 - G36 -I0-C6TX-E6-L2TX-SCK3 PC5 - G37 - E5 - A2 SIN1-L15RX-E30-I15- PF13 - G93 PC6 - G38 - E4 - IC2_SCL -L7RX-A1 PC7 - G39 - E3- I2C_SDA -L7TX A44- PG6 - G102 PC8 - G40 - C2RX- E2 PC9 - G41 - C2TX - E1 A53- PG9 - G105 PC10 - G42 - E29 - L10RX-CS0_1 A55- PG10 - G106 PC11 - G43 - E30-L10TX-CS4_1 SCK0-A57-E19- PG11 - G107 PC12 - G44 - C4RX-E31-CS3_1-CS1_3 SOUT0-A58-E20-I13- PG12 - G108 PC13 - G45 - C4TX-E28-SIN1 PC14 - G46 - E27 - SCK1 CS1_3-E19- PH4 - G116 PC15 - G47 - E26 - SOUT1 CS1_2-A35-E4-C3TX- PI1 - G129 EXTAL CS0_2-A38-E5-C3RX-I8- PI2 - G130 A39- PI3 - G131 XTAL A40 -PI4 - G132 PB_VDD_LV_W2 PB_VDD_LV_S1 PB_VDD_LV_E0 PB_VDD_LV_E2 A49- PI6 - G134 A50- PI7 - G135 SIN2-I2C_SCL-E23- PM4 - G196 SOUT2-I2C_SDA-E24- PM6 - G198 C4RX- I7- PM14 - G206 VDD_HV_ADV_S /VDD_HV_ADR_S VDD_HV_FLA_0 VDD_HV_OSC PORST TESTMODE VDD_HV_IO0_W0 VDD_HV_IO0_S0 VDD_HV_IO0_E0 PB_VDD_HV_N0 PB_VDD_HV_N2 VSS_HV_OSC VSS_HV_ADV_S /VSS_HV_ADR_S VSS 88 R105 62R PC3 R106 62R CLK_Ext MOSI_Ext UART_TX PC2 R109 4k7 PC1 R110 1k 43 36 16 17 1 2 PD11 PD12 PD13 PD14 PD15 PC7 R111 1k PF3 R112 1k PC5 R113 1k 13 14 15 18 PE1 PE2 PE3 PC9 R114 1k GND Vsreg GPIO_uC_4 GPIO_uC_3 GPIO_uC_2 GPIO_uC_1 CAN_RX_Ext CAN_TX_Ext J103 PD15 R115 1k 70 71 72 PF2 R117 1k PC8 R118 1k 75 84 85 91 PC6 R119 1k PE1 R120 1k PE2 R121 1k PD12 R122 1k PD13 R123 1k PF2 PF3 57 MISO_Ext 25 21 22 23 24 J106C Reset TMS TCK TDO TDI JCOMP CSN_Ext MISO_Ext MOSI_Ext CLK_Ext 27 28 29 30 RxDC TxDL RxDL PWMH1A PWMH2A PWMH1B PWMH2B DIR1 DIR2 DIRH PWMH CSN MOSI MISO CLK Assembly marks 26 27 S105 S107 S109 S106 S108 S110 5V_uC 89 90 68 R124 4k7 67 Reset 65 n.c. C117 53 30 28 101 GND GND 21 22 23 24 25 26 TxDC 86 SPC582B Reset TMS TCK TDO TDI JCOMP CM/DIR 32 33 34 35 GND GND PC4 NINT BRP Enable C103 10nF GND 73 74 59 58 49 100 99 Nreset Reset SP102 Reset 2 4 6 8 10 12 JCOMP 14 GND TMS GND R125 10k J105 GND TDI GND TDO GND TCK nc EVTI TMS RST GND VDD JCOMP RDY JTAG PPC 1 3 5 7 9 11 13 TDI TDO TCK Reset C118 10pF 5V_uC GND J106D SPI_CSN SPI_MISO SPI_MOSI SPI_CLK DB_COMM DB_COMM page 4/12 EVAL-L99DZ200 EVAL-L99DZ200 motherboard Figure 5. EVAL-L99DZ200 motherboard schematics (2 / 2) J1 J2 Vbat J3 Vsreg Vbat JP1 D1 Vsreg jump STTH102AY 2 +5V_PERM Vsreg 1 Tr1 SMAJ40CA T2 STL64N4F7 1 T1 BSS84 J5 Vs GND 5 Vs 4 R8 10k 3 T5 BC857 D2 2 5V1 R5 1k T3 BSS138 T4 BSS138 STTH102AY R1 4k7 R2 1k Nreset 5V2 R3 1 2 0R Tr2 ESDLIN 2k2 GND GND LIN GND 2 R13 22k 3 3 1 Out 15 CAN_L L1 J8 CAN_H CM_Coil BRP Enable BRP Enable 1 J10 WU 1k GND SP1 WU GND GND TxDC RxDC GND RxDC TxDL TxDL JP4 WU_sel 1 6 2 7 3 8 4 9 5 5V1 1k C4 10nF Vbat CAN_supp GND R17 GND +5V_PERM JP5 Vbat 0R PWMH1A 11 10 PWMH1A PWMH2A GND PWMH2A PWMH1B GND PWMH1B PWMH2B PWMH2B DIR1 Cannon 9M Vs RxDL J11 C3 4,7nF GND R15 T7 BC847 GPIO_C TxDC CAN R11 62R BRP Enable GPIO_C 1 2 3 R10 62R R14 2 R16 10k CM/DIR RxDL 0R T6 BC847 NINT CM/DIR J9 J7 R12 GPIO_C NINT GND R9 D3 STTH102AY Nreset J4 GND GND CP R4 1k LIN_PUP 1 R7 J6 CP LED2 5V2 C2 1nF R6 1k LED3 CSN 100k 5V_uC JP2 Vsreg SPI_CSN GND +5V_PERM LED1 5V1 JP3 Vs jump GND +5V_PERM C1 47uF DIR1 DIR2 5V2 DIR2 DIRH JP6 PHB jump Bus_HBA[1...6] Reset PWMH2A PWMH1A PWMH2B DIR2 DIRH PWMH 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 JP10 CAN flash J27 J28 J31 J32 PWMH1B DIR1 NINT RxDC RxDL TxDL CSN MOSI MISO CLK CM/DIR J36 RxDL JP11 LIN flash TxDC J37 TxDL J40 GND Vsreg CM/DIR GND Out 10 R47 1 1k 4 R69 100k n.c. C36 n.c. R67 n.c. R68 GND T11B R66 62R 4 R70 100k GND J70 ECV 1 J74 GL2B C37 10nF GL2B GND J71 2 Mirror heater GND GND GND GND GND C22 22nF C23 22nF C24 22nF C25 47nF C26 47nF J53 J54 J55 J56 J57 J58 Out10 Out11 Out12 Out13 Out14 Out15 Out HS 1 J59 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Green Green Green Green Green LED21 LED14 Orange LED20 LED25 Green LED19 LED6 Green LED7 Orange Orange Orange LED5 DIP_8pin Green Green LED4 J66 T13 STL19N3LLH6AG J67 R49 R50 R51 R52 R53 R54 R55 R56 Eventually STL52DN4LF7 C32 4,7nF GND ECV 1 C38 220nF GND GND C21 22nF J52 Out9 LED18 R48 220R ECDR Eventually STL52DN4LF7 GND C20 22nF J51 Out8 LED17 J65 ECDR T12 STL19N3LLH6AG n.c. C31 5 n.c. C35 STL76DN4LF7 T10B R65 62R 3 J73 GL1B STL76DN4LF7 5 C34 10nF GND 3 C33 10nF GND J69 SHeat n.c. C30 GND C19 22nF J50 Out7 Orange J64 GHeat GND C18 22nF J49 Out6 Green SH2B GND C17 22nF J48 Out5 LED16 Vs J63 SH2B H-bridge B output 4k7 4k7 4k7 4k7 4k7 4k7 GH2B GND C16 22nF J47 Out4 LED15 R40 100k GND R41 R42 R43 R44 R45 R46 2 J61 GH2B 4k7 4k7 4k7 4k7 4k7 4k7 4k7 4k7 n.c. C29 GND 2 R38 62R GND C15 22nF J46 Out3 J72 4k7 4k7 4k7 4k7 4k7 4k7 4k7 4k7 DIP_8pin GND 2 EC mirror GND R57 R58 R59 R60 R61 R62 R63 R64 n.c. C28 T11A GND C14 22nF J45 Out2 ARK_500/16 7 n.c. R36 STL76DN4LF7 n.c. R35 1 1 2 R39 100k J62 SH1B J68 STL76DN4LF7 7 T10A R37 62R C12 22nF GND C13 22nF J44 Out1 Out 1 Out 2 Out 3 Out 4 Out 5 Out 6 Out 7 Out 8 Out 9 Out 10 Out 11 Out 12 Out 13 Out 14 Out 15 Out HS Vbat J60 GH1B GND J43 Green Nreset PWMH2A PWMH1A PWMH2B DIR2 DIRH PWMH D7 STTH102AY GND C11 22nF Bus_Out[1...15,HS] D6 STTH102AY GND GND GND GND GND GND GND GND GND GND DZM2021 socket Out 14 Out HS Out 4 Out 8 Out 2 Out 3 Out 5 Out 1 Out 12 Out 11 GL1B SH1B GH1B Out 13 Out 10 Out 9 Out 7 Out 6 LSB_FSO 1 2 3 GND R28 4k7 ECDR ECV Vs GND JP12 J21 J22 J23 J24 J25 J26 J38 GND Vs C27 3.3mF 50V CLK TxDC J35 LED13 GND JP9 Debug PWMH1B DIR1 NINT RxDC LED24 R34 100k GND GND 1 2 3 4 5 SPI Green GL2A 1k 1k 1k 1k GND Green GND J42 GL2A R30 62R 4 R18 R19 R20 R21 LED12 n.c. R32 T9B CLK MOSI MISO CSN Vsreg LED23 n.c. R31 n.c. C10 Debug PWMH1B DIR1 NINT RxDC TxDC RxDL/NINT TxDL CSN DI DO CLK CM/DIR SGnd Vsreg Out 15 ECDR ECV PGnd PGnd 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 R33 100k n.c. C9 Bus_HBB[1...6] 4 STL76DN4LF7 T8B R29 62R 3 J41 GL1A STL76DN4LF7 5 C8 10nF GND 3 C7 10nF GND 5 H-bridge A output Vsreg LED10 Green CP 5V1 SP2 Debug Green SH2A MISO J20 GND LED11 GND 1 PGnd PGnd WU GL1B SH1B GH1B GH2B SH2B GL2B CP GHeater SHeater Out 12 Out 11 LSA1_FSO LSA2_FSO LSB_FSO PGnd PGnd PGnd MOSI CLK LED22 GL1B SH1B GH1B GH2B SH2B GL2B J34 SH2A CSN MOSI MISO LED8 Green LED9 Orange 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 GH2A R27 100k 5V regs 5V1 Out 15 J30 GH2A R25 62R 2 PWMH CSN J13 J14 J15 J16 J17 J18 J19 GND T9A 1 2 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 U1 7 n.c. C6 STL76DN4LF7 n.c. R23 n.c. C5 1 n.c. R22 GND 2 5V2 Vs Vs Out 13 Out 10 Out 9 Out 7 Out 6 Out 6 Out 1 Out 1 Out 5 Out 5 Out HS Out 4 Out 8 Out 2 Out 3 Vs Out 14 PGnd J39 2 R26 100k STL76DN4LF7 T8A R24 62R J33 SH1A 1 J29 GH1A LSA1_FSO LSA2_FSO D5 STTH102AY 7 D4 STTH102AY 5V1 5V2 5V2 GL2A SH2A GH2A GH1A SH1A GL1A LIN CAN H CAN L CAN_SUP 5V1 NRESET PWMH2A PWMH1A PWMH2B DIR2 DIRH PWMH PGnd JP7 JP8 GL2A SH2A GH2A GH1A SH1A GL1A GL1A SH1A GH1A DIRH PWMH J12 GND GND DB4431 - Rev 1 page 5/12 EVAL-L99DZ200 EVAL-L99DZ200 daughter board 1.3 EVAL-L99DZ200 daughter board Figure 6. EVAL-L99DZ200 daughter board top layer Figure 7. EVAL-L99DZ200 daughter board bottom layer DB4431 - Rev 1 page 6/12 EVAL-L99DZ200 EVAL-L99DZ200 daughter board Figure 8. EVAL-L99DZ200 daughter board schematics DB4431 - Rev 1 page 7/12 EVAL-L99DZ200 Demonstration software 2 Demonstration software Figure 9. Main window of EVAL-L99DZ200 graphical user interface DB4431 - Rev 1 page 8/12 EVAL-L99DZ200 System requirements 3 System requirements • • DB4431 - Rev 1 Windows OS (XP, 7, 8, 10) USB type B page 9/12 EVAL-L99DZ200 Revision history Table 1. Document revision history DB4431 - Rev 1 Date Version 01-Mar-2021 1 Changes Initial release. page 10/12 EVAL-L99DZ200 Contents Contents 1 Application schematics and layout. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 1.1 Overall application diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 1.2 EVAL-L99DZ200 motherboard . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 1.3 EVAL-L99DZ200 daughter board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 2 Demonstration software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 3 System requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 Revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10 Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11 DB4431 - Rev 1 page 11/12 EVAL-L99DZ200 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. 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Information in this document supersedes and replaces information previously supplied in any prior versions of this document. © 2021 STMicroelectronics – All rights reserved DB4431 - Rev 1 page 12/12