User's Manual - TQ
Contents
1. m 47 Page 3 User s Manual STK52xx UM 300 lo components Illustration directory Illustration 1 STK52xx Rev 200 Block Diagram 11 Illustration 2 Description of External Connectors 13 Illustration 3 E 18 Illustration 4 PUudIODAC BIOCK Dagar 18 Illustration 5 Audio Amplifier Block 19 Illustration 6 LTX971 Block Diagram 20 Illustration 7 USB1T11A Logic Diagram bebes Tiere t putes 21 Illustration 8 Protective Circuit of 2025 21 Illustration 9 RTO 91 79 2 ETE ERE 39 Illustration 10 Dimensional Drawing STK52xx 20 42 Illustration 11 Layout Diagram 5 43 Illustration 12 Layout Diagram Bottom Side 44 N 4 sjueuoduJ02 O Aq 01080 3204 0 ByCKQsGor QU2. 8 1 224 La 5110 5 eg 8 d ee Eo ode hb 4d WEB 2 21 ee Be 0 828 a a P X B _ 8 ec a 4 s ee ee BEES eo uut 8 gt a uc 221 nas 3 i ee 99 o e D e TEL 2 eo 66 623 eo 90000 occon 9900N cud 00000000 S AEREE 48 888 gt x 8888 818082 00000 2 _ 8 88 9 Page 44 Layout Diagram Bottom Side Illustration 12 HOON 32010 OYT Gor User s Manual STK52xx UM 300 It components 6 Safety Requirements and Protective Regulations 6 1 Climate Conditions and Operational Conditions e Protection class e Relative humidity operation storing 10 90 96 not condensing Standard temperature range Chip temperature of the CPU C to 60 C Package temperature of the remaining ICs C to 60 C Storage temperatur
3. jew 0000 0000 5 VCCSVON VCCSV 1100 nF 10 pF fuse 0 5 A gt ferrite bead N 2000 Low active signal element VCC pull up element to ground pull down element in series Table 7 Pin Assignment of Keyboard Connector X84 4 1 6 Programming Interface for Keyboard and Mouse Controller X67 The software of keyboard controller is downloaded via Microchip Download interface from the PIC16F627 in the on chip program memory ANNE RB7 T1OSI DGND VCC5V RAS MCLR THV Table 8 Pin Assignment of the Programming Interface of PIC16F627 X67 Page 17 User s Manual STK52xx UM 300 lo components 4 1 7 Audio Interface X59 For sound an audio DAC is connected to the module connector at 125 Port CODEC Port PSC2 0 PSC2 A 125 4 Audio DAC Amplifier PCM1772 LM4867 5200 SPI PWM optional only Illustration 3 Audio The SPI interface PSC3 6 PSC3 9 is required for the configuration of the DAC register The PCM1772 of Texas Instruments is used as audio DAC It offers the following features e Audio DAC stereo 24 bit resolution 125 and 16 bit word right aligned e Lineout amplifier internal gain control controlled over SPI Digital Filter Clock Manager AIN I Hc EE g Digital Lineout Attenuator Amplifier i LRCK i up Audio
4. 21 Pin Assignment USB HOST Connector X8 22 Pin Assignment CAN Interface 83 23 Pin Assignment of the J1850 Controller 25 SI CNS 2 MIT 25 Pin Assignment PCI Interface 47 29 Pin Assignment IDE Interface 48 31 Pin Assignment Compact Flash Interface 50 32 33 B sse Board 16 8 34 Pin Assignment Connector D2 X1 Base Module Connector 1 35 Pin Assignment Connector D2 X3 Base Module Connector 2 36 Pin Assignment Connector D2 X2 Graphics Board to Board Connector 1 37 Pin Assignment Connector D2 X4 Graphics Board to Board Connector 2 37 JTAG COP Lauterbach Interface assignment X29 38 BING NT I TM 39 Jumper Sen DUM EC E AUS 40 Phoenix Terminal Block 20 otro ota ro n nena eh 41 distat gt eT 41 Line Filter Components nennen 41 ACTOIVITIS ese E eee eae
5. 29 4 1 15 1 IDE Interface for Hard 01 48 30 4 1 15 2 IDE Interface for Compact Flash 50 31 4 2 Module Interfaces on the 5 33 4 3 internal STAC SS 33 4 3 1 PS SS 33 4 3 2 H man Interface 16 34 4 3 3 Module Connector 02 1 02 4 34 4 3 3 1 Pin Assignment Connector 21 1 35 4 3 3 2 Pin Assignment Connector 02 nennen nennen nnns 36 4 3 3 3 Pin Assignment Connector 02 2 37 4 3 3 4 Pin Assignment Connector 2 4 37 7 Page 2 sjueuoduJ02 O Aq 01080 7201 0 GyCKGQsGor User s Manual STK52xx UM 300 Table of contents 4 4 Testing Debugging and Programming Interfaces 38 4 4 1 LAG Wale aCe ATA m 38 4 4 2 JIAOG BDM I
6. element VCC pull up element to ground pull down element in series Table 17 Pin Assignment IDE Interface X48 The I O type shown in the pin assignment is to be considered from the point of view of the 5200 module Primary Master or Slave can be selected with jumper X68 mapon ntsXGmbH 4 1 15 2 IDE Interface for Compact Flash X50 0000 DGND DGND o wo Luo 200000 5 CS0f on LP_CS4 gt 22 Q 5 V 1 o DND 20002 DND 02 00000112 00000112 ome Page 31 User s Manual STK52xx UM 300 lo components Pin No Signal Type Description 18 AD2 ADR on A18 gt 22 0 5 V 19 ADR on A17 gt 220 5V 20 ADRO on A16 gt 22 0 5V m o __ m o o m oe opsy O O oO X9 o 140 00 rotused on modu m commo Nc cmo N 30 X 0014 0 533 958V 31 X DDi5 10 mo csi one AN NECEM OO 35 220 5 00000000 ar Tata 82 0 5 ef wow
7. 105 7 ATADRO cw LEER c I Pow 113 va IPCs w4 115 Reserve 9 Reseve Reserve Reserve20 118 117 NonCPU StatL H Boot Ctrl Power GND 120 119 __ 33 Power Table 21 Pin Assignment Connector D2 X1 Base Module Connector 1 Page 35 lo components 4 3 3 2 Pin Assignment Connector D2 X3 croup J Funcion BALL Fin No BALL Greup ase SRESET PO_RESET KCPUJTAG CPU THO A02 67 7 S Power GND _ 10 9 CPUJTAG CPU JTAG CPU TCK 14 13 33V Power CPU JTAG Power GND _ 18 17 Test USB1 Reset USB1 Power _ GND _ 26 25 __ 33V USB1 Power GND __ 34 33 Timer Timer DO 38 37 __ 33 Power Power GND __ 42 41 PSC39 PSC 3 PSC 3 Power GND 50 49 33 Power PSC 2 Power GND _ _ 58 57 BO PSC21 PSC2 PSC20 60 59 PSC13 Power __ 66 65 25010 PSC 6 23660 70
8. User s Manual STK52xx UM 300 lo components Table directory Table 1 Table 2 Table 3 Table 4 Table 5 Table 6 Table 7 Table 8 Table 9 Table 10 Table 11 Table 12 Table 13 Table 14 Table 15 Table 16 Table 17 Table 18 Table 19 Table 20 Table 21 Table 22 Table 23 Table 24 Table 25 Table 26 Table 27 Table 28 Table 29 Table 30 Table 31 Terms ete aa 7 Pin Assignment of D SUB 15 Connector 21 14 Pin Assignment of TFT Connectors for the LCD Interface X41 15 Pin Assignment of the Extension Interface 57 16 Pin Assignment of the Backlight Connectors 7 16 Pin Assignment of Mouse Connector X84 17 Pin Assignment of Keyboard Connector 84 17 Pin Assignment of the Programming Interface of PIC16F627 X67 17 Pin Assignment of 4 Pin Connector 59 eene nennen nnn nnns 19 Pin Assignment of RJ45 Socket X8 20 Pin Assignment of JTAG Interface 1
9. 33 B FP 016 RED Ca R SS 36 BFPD8 31 ereo ereo BUE X 4 B X Bi _ 4 42 vew 4 BFPEN Low active signal element to VCC pull up element to ground pull down element in series Table 3 Pin Assignment of TFT Connectors for the LCD Interface X41 To connect LVDS monitors LVDS displays the adapter ADAP LVDS1 can be connected on the LCD interface X41 For operation with DVI monitors the ADAP DVI device has to be connected to the LCD interface Page 15 User s Manual STK52xx UM 300 lo components 4 1 3 Extension Interface X57 The signal data and clock of the graphics controller interface are fed to an extension connector The extension interface can be used only for monitor identification while using ADAPDVI1 DVI adapter device LINE NEM M 4 CRTDDCLK 2 monitor detection clock 6 CRTDDCDATA O IC monitor detection data Low active signal element to VCC pull up element to ground pull down element in series Table 4 Pin Assignment of the Extension Interface X57 4 1 4 Backlight Supply X7 A second pin strip connector X is used to provide backlight supply for LCD or TFT monitor Using a jumper 5VBC
10. 69 CH 23061 Power oe te RE 2C 5011 vo s 79 w 50231 oM oo Flash Reset Battery Vbatt3V3 nonCPU 86 85 33V ___ srep er LP Select 90 89 noncPU 5 2 LP Byte ws mo w OH Reserve 3 reserve Reserve 4 96 95 RBeseveb Power GND 98 97 __ 33V Power 6 100 99 RHeseve7 Reserve Heseve8 102 101 Hesevef 104 103 Reserve Power GND 106 105 __ X 12 Heserve d 108 107 Heseve 3 Reserve 16 10 109 33v Power Heseve 8 112 111 5 p Power GND __ 114 13 Resere 7 223 Powr GND __ 120 119 1 33V Power Table 22 Pin Assignment Connector D2 X3 Base Module Connector 2 Page 36 User s Manual STK52xx UM 300 N sjueuoduJ02 O Aq 01080 User s Manual STK52xx UM 300 lo components 4 3 3 3 Pin Assignment Connector D2 X2 __ __ 33V Power en iur 200041 usi SM501 USB emo emos ws e 7 mo oon GPOZ7 Ni8 10 9 GPIO 6 _ 12 n GPI28
11. 000000 9 OF Westra mow T dose Waster open Sag ___ Ne IATA RES from HW Reset SW Reset PSC1 4 gt 220 5 V _ lt nputfor HOD acy gt 22 0 8 V optional PSC30 46 JCBLDFL l100k0to GND J 47 nF to GND 0 0 optional PSC3 2 9 6 7 8 9 30 31 32 33 34 35 36 3 38 Low active signal element to VCC pull up element to ground pull down element in series Table 18 Pin Assignment Compact Flash Interface X50 Primary Master or Slave can be selected with jumper X79 Page 32 sjueuoduJ02 O Aq 01080 User s Manual STK52xx UM 300 lo components 4 2 Module Interfaces on the Starterkit All interfaces of the module are also routed to 2 54 mm headers on the Starterkit LR EN RS232 1 and RS2322 PCI Ctrl pins Table 19 Pin Assignment 5 mapon ntsXGmbH 4 3 Internal Interfaces 4 3 1 Reset A reset can be initiated using the reset switch S1 With this the TQM5200 and the Starterkit are reset A red LED on the TQM5200 module shows the reset status Page 33 User s Manual STK52xx UM 300 lo components 4 3 2 Human Interface 16 LEDs On the STK52xx 16 red LEDs are connected with drivers 74LVC244A By setting jumper X15 the driver can be activated The first eight LEDs are ass
12. 29 PCI STOP PCI Control Power __ 34 33 JYO7 PCIPERR PCI Control PCLREQ 38 37 __ 33V Power L 5 PCI PAR PCI Power 4i PCI 10 SEL PCI CBE 38 pci _ PCL FRAMES CBE 2 9 PCI CLOCK PCI CBE 1 E anap PCI CBE PCI Control 8 Ao Bos CETA 28 EXT 31 EXT AD 26 EXT AD 28 Power AD Bus 2 60 59 02 EXI AD 25 5 Ao bes __ 8 er 33V Power EXT AD 20 EXT AD 23 EXT AD 16 70 69 YOO EXTAD 17 Power 74 73 33V Poer Bem AD Bus 8 Wit 80 79 9 angie Power GND 8 81 Yt EXTAD 7 AD Bus AD 18 VO4 YO4 EXT AD 19 PCI ata LP 18 V04 68 6 Y04 EXT AD 19 AD Bus AD Bus EXTAD 4 1 86 8 33V EXT AD 2 EXT AD 3 PCI LP Power __ 90 89 AD Bus V13 92 91 W16 LP_RW AD Bus LP Control Control LP OE 008 96 95 14 Power __ 98 9 33 Power ATAIOR _ Y17 100 99 16 ATA ISOLATION ATA Control Power X 1
13. idi DATA lntertace Digital gt OUT Filter BCK 5 SPI AMIX gt DEMP MD 4 1 Vcc2 AGND1 AGND2 Illustration 4 Audio DAC Block Diagram The AIN pin can be accessed via the Timer2 pin of the module Timer port bit 2 The Timer2 pin is connected via a low pass filter and a serial capacitor 1 uF to N 18 sjueuoduJ02 O Aq 01080 I Q User s Manual STK52xx UM 300 lo components As audio amplifier the LM4867 of National Semiconductor is used This amplifier offers an output power of up to 1 9 5 V supply 40 output Shutdown 1 6 8 12 19 21 22 24 2 7 19 Illustration 5 Audio Amplifier Block Diagram An LC Filter in the power supply serves to reduce noise Audio out1 Audio out1 Audio out2 Audio out2 Table 9 Pin Assignment of 4 Pin Connector X59 The sound interface is not fed on a connector to the device front and is not provided with an ESD protective circuit Page 19 User s Manual STK52xx UM 300 lo components 4 1 8 10 100 Mbit Ethernet Interface X8 A 10 100 Mbit Ethernet interface is available to connect to a network For this purpose a 3 3 V Dual Speed Fast Ethernet PHY Transceiver Intel LXT971A is used with RJ45 socket with integrated transformer Pulse JU054P01R Dual USB 10 100 Mbit RJ45 Ethern
14. works with a level of approx 8 V The NME1212 with 1 W approx 80 mA and galvanic isolated DC DC converter is used The AU5780A module works without Supply Control Function On the Starterkit a 9 pin D SUB connector is used for connection of a standard OBD II cable When using an OBD II cable an external adapter must be connected not a standard accessory of the STK52xx Starterkit 7 24 1 sjueuoduj02 O Aq 01020 mapon ntsXGmbH User s Manual STK52xx UM 300 lo components The pin assignment of the J1850 controller on the D SUB 9 connector X21 matches the standard assignment as per OBDIIJ1962 D SUB 9 pin Male Connector on STK52xx J1962 Signal description Notes for the Starterkit Signal GND N C Because of galvanic isolation Chassis GND CANH J 2284 77 7777 1509141 2 Line 9 Battery Power m Vi via OBD II cable Table 14 Pin Assignment of the J1850 Controller 4 1 13 2 x RS232 Interface X2 Two serial interfaces are available on the Starterkit and both are made available externally on the Starterkit by means of standard RS232 connectors D SUB 9 pin The transfer rate is 9 6 kbaud up to 115 2 kbaud line length lt 5 m line type Belden 9829 060500 The transmission rates depend on the length of line the number of bus subscribers the quality of the line used and the type of scheduling tm O NN amw
15. AD22 Direct from TQM5200 S X4 A29 AD20 Direct from 5200 5 Ground X4 A31 AD18 Direct from 5200 5 X4 A32 AD16 VO Direct from 5200 5 X4_A33 VCC3V3 VCC3V3 Ds Gd 00000007 000007 vows eos 5 6 to VCC3 3V optional VCC5V 5 6 to VCC3 3V optional VCC5V 4 Ground PCI PAR direct from 5200 5 Direct from TQM5200 S VCC3V3 Direct from TQM5200 S Direct from TQM5200 S maponentssGmbH Ground EN DGND Direct from 5200 8 NM ER NS X4 A53 VCC3V3 VCC3V3 AD2 Direct from TQM5200 S Direct from TQM5200 S Ground Direct from TQM5200 S Direct from TQM5200 S VCC3 3V optional VCC5V T 5 6 to VCC3 3V optional VCC5V VCC5V VCC5V D 4 52 CBIO direct from TQM5200 S D AD2 _ 4 1 VSS 12V X4 B3 DGND 9 0 NC NC Ground d Page 27 lo components Pin Signal Type User s Manual STK52xx UM 300 Description X4 B6 VCC5V X4 B37 DEVSEL NE Le O NEN I O I O I O I O I O I O VCC5V T 5 6 kO to VCC3 3V NC T 5 6 to VCC3 3V NC NC NC NC S PCI_DEVSEL 5 6 VCC3 3V direct from TQM5200 T 5 6
16. CAN2 TX Timer 0 optionally at PSC2 2 configurable using 0 resistors option e CAN2 Timer 1 optionally at PSC2 3 configurable using 0 resistors option PSC2 4 WAKE UP function r Page 22 User s Manual STK52xx UM 300 N sjueuoduj02 O Aq 01020 User s Manual STK52xx UM 300 lo components The outputs of MSCAN Controller are connected using CAN transceiver driver PCA82C251 This interface connection is provided with a galvanic isolation For the implementation of the galvanic isolation of the signals optocouplers HCPL 060L and HCPL 0600 are used which also work as a level shifter The supply voltage of both modules is 5 V The supply of the CAN transceiver is galvanically isolated For galvanic isolation a DC DC converter NTE0505 is used Both CAN interfaces are independent of each other and galvanically isolated For galvanic isolation the following data applies e 1kV 3 9mm Moreover the operation mode High Speed or Silent of the transceiver can be set using jumpers X9 X10 The default setting jumper open is the High Speed mode In the Silent mode the transceiver only listens on the bus and the transmitter is disabled A 9 pin double jack D SUB connector is used for the CAN transceiver Additionally the bus termination is provided with 120 Q which is not included at the time of delivery The maximum possible data rate is 1 Mbaud The data transmission speeds are dependent on th
17. Extension Interface 57 nnn nhan se nns anna sra 16 4 1 4 16 4 1 5 Keyboard and Mouse Controller 84 16 4 1 5 1 Mouse X84 top 17 4 1 5 2 Keyboard X84 bottom 17 4 1 6 Programming Interface for Keyboard and Mouse Controller X67 17 4 1 7 Audio Interface 59 _ sns nsns nns 18 4 1 8 10 100 Mbit Ethernet Interface 8 20 4 1 9 JTAG Interface to Ethernet PHY 1 21 4 1 10 USB Host Interface 21 CAN dE ipu SEEMS 22 21 12 19230 5 21 rt EE E 24 41 19 25 52321 21 Ub RUE tau PER 25 4 1 14 5 7 26 4 1 15 IDE Interface for Compact Flash and Hard DiSk
18. ee eee UM EPUM EE 46 Page 5 User s Manual STK52xx UM 300 lo components Revision history 200 31 05 2005 VJU Audio interface and RTC added 201 10 08 2005 VJU SS Revised according to test results 300 12 10 2010 F Petz Completely revised Page 6 sjueuoduJ02 O Aq 01080 User s Manual STK52xx UM 300 lo components 1 About this Manual This manual contains technical information concerning the Starterkit STK52xx 1 1 Tips on Safety Improper or incorrect handling of the product can substantially reduce its life span 1 2 Terms and Conventions This symbol represents the handling of electrostatic sensitive modules and or components These components are often damaged destroyed with the transmission of a voltage higher than about 50 V A human body usually only experiences electrostatic discharges above approximately 3 000 V This symbol indicates the possible use of voltages greater than 24 V Please note the relevant statutory regulations in this regard Non compliance with these regulations can lead to serious damage to your health and also cause damage destruction of the component This symbol indicates a possible source of danger Acting against the procedure described can lead to possible damage to your health and or cause damage destruction of the material used mp n nt6mbH This symbol represents important details or aspects for working with TQ products This
19. is no useful functionality for the user 4 4 2 JTAG BDM Interface X29 The JTAG BDM interface is also called JTAG COP adaptor The pin assignment is as follows Pull m QREQ not used on board VCCS 10 mA 3V3 S N C KEY coding pin or to GND TEST_SEL_0 CKSTOP TEST_SEL_1 Table 25 JTAG COP Lauterbach BDM Interface assignment X29 JA Page 38 User s Manual STK52xx UM 300 sjueuoduJ02 O Aq 01020 74 User s Manual STK52xx UM 300 lo components 4 5 Additional Components on STK52xx 4 5 1 Buffer Battery The TQM5200 module is optionally equipped with SRAM On the STK52xx an RTC is mounted In order to buffer the data content of these components a replaceable 3 V lithium battery is assembled on the STK52xx Starterkit as buffer battery Varta Panasonic Renata CR2032 3 V 235 mAh Table 26 Buffer Battery The maximum power consumption of SRAM 15 uA and RTC 1 pA yields a power consumption of approximately 140 mAh per year Through self discharge of the battery an additional 20 mAh per year are used With these values a battery has a life expectancy of approx 1 5 years at 0 95 operating time The battery is used up after about years at an average operating time of 50 96 4 5 2 RTC mapon ntsXGmbH The ST Microelectronics 41 00 is used as RTC The pin and register compatible Dallas DS 1340 is used optionally Th
20. n nts GmbH 3204 0 User s Manual STK52xx UM 300 It components 1 4 Registered Trademarks TQ Components GmbH aims to adhere to the copyrights of all the used graphics and texts in all publications and strives to use original or license free graphics and texts All the brand names and trademarks mentioned in the publication including those protected by a third party unless specified otherwise in writing are subjected to the specifications of the current copyright laws and the proprietary laws of the present registered proprietor without any limitation One should conclude that brands and trademarks are protected through the rights of a third party 1 5 Imprint TQ Components GmbH Gut Delling M hlstraf e 2 D 82229 Seefeld Tel 49 0 8153 9308 0 49 0 8153 9308 134 Email info tgqc de Web http www tq components com 1 6 Copyright Copyright protected 2010 by TQ Components GmbH This manual may not be copied reproduced translated changed or distributed completely or partially in electronic machine readable or in any other form without the written consent of TQ Components GmbH 1 7 Disclaimer TQ Components GmbH does not guarantee that the information in this manual is up to date correct complete or of good quality Nor does TQ Components assume guarantee for further usage of the information Liability claims against TQ Components GmbH referring to material or idea rela
21. 1382 1997 2860 Regulation with respect to the avoidance and utilization of packaging waste as at 21 8 98 source of information BGBI 1998 2379 Regulation with respect to the European Waste Directory as at 1 12 01 source of information BGBI 2001 3379 User s Manual STK52xx UM 300 lo components 7 Appendix 7 1 Acronyms and Definitions The following terminology and abbreviations are used Acronym Metal Oxide Semiconductor Field Effect Transistor Positive Channel Metal Oxide Semiconductor Table 31 Acronyms Integrated Circuit Page 46 Aq 01080 _ User s Manual STK52xx UM 300 lo components 1 2 Literature 1 5200 User s Manual TQM5200 UM 300 Rev 300 15 09 2010 2 52005 User s Manual TQM5200S UM 300 Rev 300 04 09 2010 3 MPC5200B User s Manual MPC5200BUM Rev 2 12 2008 4 Linux Software Manual LIN5200 SWM 106 pdf Rev 106 10 02 2010 mapon ntsXGmbH Page 47
22. For Technology in Quality User s Manual STK52xx STK52xx UM 300 12 10 2010 User s Manual STK52xx UM 300 N lo components Table of contents PEE Euri NE 7 1 4 gt 7 1 2 Terms and Conventions nnne sese rasa sana senes 7 1 3 Handling and ESD 9 1 4 Registered ITrademal 9 1 5 RTT 9 1 6 SO Emm 9 1 7 VIS CI ERR 9 c 10 3 System irse sanae 11 3 1 POKO PI 11 3 2 FUNCIONAN S 12 4 Electronics 5 nnne nnns nnn nnne nns 13 4 1 E ET ae TTE 13 4 1 1 954 11 11 5 4 14 4 1 2 14 4 1 3
23. GPIO GPIO48 Le s p e GPIO47 GPIO50 W17 GPIO49 GPIO63 221 20 19 GPIO51 Power GND 22 21 220 GPIO amp LCD FP CLK VDEN Interface FPEN vn 26 25 __ 33V Powr _ FP DISP V123 BIAS Power GND 29 FP HSYNC Interface BET BLUE VSYNC GREEN AA13 34 33 HSYNC CRT Interface RED 36 35 w4 VSYNC Interface Power GND __ _ 38 37 33 bower O 39 233V Table 23 Pin Assignment Connector D2 X2 Graphics Board to Board Connector 1 4 3 3 4 Pin Assignment Connector D2 X4 we 1 __ 33 __ FP22 Y10 23 GND 5 vw FP 21 FP20 7 Y __ FP 19 LCD Interface LCD FP18 9 219 3 0 17 Interface FP 16 15 Power GND FP 14 Interface 12 V7 10 19 LCD Interface Power GND 21 eme w 25 27 Power LCD Interface ___2 2 GPIO55 ions Interface 201 35 P19 GPIOS4 GND __ __ 37 33V Powers Power Power GND EC 39 ___ __ 37 lo components 4 4 Testing Debugging and Programming Interfaces 4 4 1 PLD JTAG Interface X14 On the Minimodule a Lattice PLD is assembled which is used for internal purposes only There
24. L the internally generated 5V supply an external 5V supply selected The 12 V backlight voltage is fused with 4 A the 5 V with 3 A VCC12V Switched MOSFET VCC12V for backlight VCC12V Switched MOSFET VCC12V for backlight 4 5 5 Switched MOSFET 5 for backlight 6 Switched MOSFET 5 for backlight Table 5 Pin Assignment of the Backlight Connectors X7 4 1 5 Keyboard and Mouse Controller X84 A keyboard and mouse controller is used as the input device which communicates with the TQM5200 via the serial interface of the PSC6 Programmable Serial Controller UART 6 SRV05 4 is used for both the PS2 interfaces as ESD protection A colour coded stacked PS 2 socked X84 is used Page 16 6 14 9 01 Aq 01020 mapon ntsXGmbH User s Manual STK52xx UM 300 lo components 4 1 5 1 Mouse X84 top green m we 00 MSDATA 14 7 1100 pF B5 __ wo farano NC OOO 2 Low active signal element to VCC pull up element to ground pull down gt element series Table 6 Pin Assignment of Mouse Connector X84 4 1 5 2 Keyboard X84 bottom purple m ww me eme 00 A No NWcmeded 201110
25. NG _ HRS DA rmRS2Svanscever Modue Pare uc sis _ PremRS2S2vanscewer STKSZm 9m N amp omno Low active signal element VCC pull up element to ground pull down gt element in series Table 15 Pin Assignment X2 Additional protection is provided on the signal lines to protect from Electrostatic discharge ESD The bus drivers for RxD and TxD are assembled on the module the drivers for RTS and CTS are assembled on the Starterkit Page 25 User s Manual STK52xx UM 300 lo components 4 1 14 PCI Slot X47 The internal PCI 2 2 compatible interface of the MPC52xx is made available on the Starterkit to a PCI slot The PCI controller of the MPC5200 supports type 0 configurations and can work as master as well as in slave mode The arbiter directly addresses an external slave and always supplies the PCI clock for the PCI bus The MPC52xx is not 5V tolerant at the PCI interface Thus only 3 3 V PCI devices can be connected X4 1 TRST 4 2 VCC12V VCC12V X4 A10 VCC5V 4 18 I O Direct from TQM5200 S X4 A19 NC X4 A20 AD30 xem vccws O Page 26 sjueuoduJ02 O Aq 01080 User s Manual STK52xx UM 300 lo components Pin Signal Type Description X4_A28
26. PWRDWN 4 gt Sleep 16 gt 5 1 X17 gt TXSLEWO Description Galvanically decoupled Galvanically decoupled Galvanically decoupled TX Pin Signal Term plane Low active signal element to VCC pull up element to ground pull down element in series Table 10 Pin Assignment of RJ45 Socket X8 kea Page 20 RX Term plane Term plane om Term plane gt 75Q AC coupling to ground o sjueuoduio2 O Aq 01020 32041 0 User s Manual STK52xx UM 300 It components 4 1 9 JTAG Interface to Ethernet PHY 1 The transceiver LXT971A can be configured using a JTAG interface X1 TDO TMS Table 11 Pin Assignment of JTAG Interface X1 4 1 10 USB Host Interface X8U The 0581 Host interface of the MPC52xx is connected using the USB transceiver USB1T11A EU D SPEED gt VMO FSEO VPO D nov E lt VM lt Illustration 7 USB1T11A Logic Diagram For decoupling FET switches SN74CBTLV3384 are used For the power management of the USB interface a MIC2025 is used which delivers power from its 49 V supply to the USB bus directly which is available for external devices Vcc 2 7 to 5 5V 10k Logic Controlle VIN ON OFF OVERCURRENT GND MIC2025 75 Illustration 8 Protective Circuit o
27. T bFer Fse 38 DOND 7138 CRT HSNC ______ o220 oOo o O O oO o M j Gmemd Low active signal element to VCC pull up element to ground pull down element in series Table 2 Pin Assignment of D SUB 15 Connector X21 All signals are protected using diode circuits against VCC5V and DGND ESD Cover module used SRV05 4 As additional ESD protection dischargers are implemented in the signal and data lines 4 1 2 LCD Interface X41 The LCD interface is used to connect an LCD or TFT monitor All signals are fed via an octal bus buffer bus driver 74LVC244A to the 44 pin strip connector X41 Only modules with graphics controller support this interface beno Grund Ss 3 4 BFPFRAME 00400 000 Jo 6 BFPDiB RED AR Page 14 sjueuoduJ02 O Aq 01080 User s Manual STK52xx UM 300 lo components Pin Signal Description 24 Bit 18 Bit BFPpz RD R 9 RED R5 R3 10 B FP 022 RED R4 12 15 B FP D12 GREEN G4 G2 19 BLUE 52 5 52 55 REY Horizontal Select NC opt tory 31 CNFHLO2 Vertical Select NC opt tory _ 32
28. ck bush X19 Description VCC24V VCC12V VCC 2 2 Rng 0 Table 29 Jack Bush X19 To avoid overloading jack bush X19 it should only be used when no display backlight is supplied by the Starterkit 4 7 2 Line Filter Protective Circuit Reverse battery protection at X20 and X19 up to 32 V The STK52xx is protected against damage through a voltage controlled switch PMOS Vishay SUP65P04 15 VIS P Channel MOSFET 60 V 60 55 C to 175 C Wickmann 181 4A Fuse 4 A slow blow General Semi SMBJ30CA Bidirectional suppressor diode Usrimin 33 3 V General Semi SMBJ30A Unidirectional suppressor diode Ugrminy 33 3 V Vishay F1750 012 112 Noise suppression choke IN 10 A L 2 5 uH Table 30 Line Filter Components Page 41 User s Manual STK52xx UM 300 lo components 5 Mechanical Specification The overall dimensions of the STK52xx are 220 mm x 160 mm 160 154 142 101 5 106 8 84 6 16 1 21 7 Illustration 10 Dimensional Drawing STK52xx Rev20x 5 1 Mounting Holes There are two holes available for mounting the TQM5200 on the STK52xx Holes are provided on all four corners and in the center of the STK52xx These holes are meant for mounting the STK52xx in a cabinet Alternatively these holes can also be used for mounting standoffs and a display holder Furthermore four holes are available for mounting a 2 5
29. e 25 C to 70 C e Extended temperature range Chip temperature of the CPU 40 C to 85 C Package temperature of the remaining ICs 40 to 85 C 6 2 Dependability and Durability Service Life The Components are designed for a typical service life of 5 years 6 3 Environmental Protection By environmentally friendly processes production equipment and products we contribute to the protection of our environment To be able to reuse the product it is produced in such a way a modular construction that it can be easily repaired and disassembled The energy consumption of this subassembly is minimised by suitable measures Printed pc boards are delivered in reusable packaging Modules and devices are delivered in an outer packaging of paper cardboard or other recyclable material Due to the fact that at the moment there is still no technical equivalent alternative for printed circuit boards with bromine containing flame protection FR 4 material such printed circuit boards are still used No use of PCB containing capacitors and transformers polychlorinated biphenyls These points are an essential part of the following laws The law to encourage the circular flow economy and assurance of the environmentally acceptable removal of waste as at 27 9 94 source of information BGBI 1994 2705 Regulation with respect to the utilization and proof of removal as at 1 9 96 source of information BGBI 1996
30. e RTCs have the following features Interface Software clock calibration e Counting of seconds minutes hours days months and years e Automatic power fail detection and switching over to battery supply OSCI OSCILLATOR V 32 768 kHz DIVIDER OSCO FT OUT N SECONDS MINUTES CENTURY HOURS VOLTAGE SENSE CONTROL D SS SWITCH LOGIC VBAT CIRCUITRY DATE MONTH SERIAL BUS INTERFACE ADDRESS Illustration 9 RTC Block Diagram E gt gt The RTC is clocked by an oscillator with a frequency of 32 786 kHz The RTC is connected to the MPC5200 C bus 2 The Pull Up resistors to clock and data lines are connected as these are already present on the module at the 39 User s Manual STK52xx UM 300 lo components 4 6 Jumper The description of the jumper settings is given in the following table xs 2 tmm 200 xw lose 3 _ xw 2 Opn ETH PWRDWN 3 xs 2 x ___2 USBidsbe CAN TxD gaWvanicisolaton Open geben lon Om 171 CANT GND ganic Opn TxD galvanic isolation Open xw 2 transceiver speed mode Open High Speed 6 Lm 2 Open 2
31. e line length line type used and the number of the bus sharing units The transfer rates stated below result from the sample test structure of a CAN Network composed of 2 bus sharing units and the line type LAPP 2170204 e Max 600 kbaud with line length lt 100 m Max 1 Mbaud with line length lt 25 m maponentssGmbH CAN1 2 Connector Descrivtion D SUB 9 pin 2A 2B CANL Data signal GND Galvanically separated CAN ground NGO Table 13 Pin Assignment CAN Interface X83 The CAN interfaces are not provided with additional ESD protective circuitry Page 23 User s Manual STK52xx UM 300 N lo components 4 1 12 J1850 Bus X21 The MPC52xx supports the bus system as per SAE J1850 VPW which is widely used in the USA and whose use is also widespread in the automobile industry That is why a J1850 interface is provided optionally via an OBD II cable interface with the Starterkit A Philips AU5780A is used as the J1850 transceiver It is powered the OBD II connection Both digital signals TX and RX are connected via two optocouplers HPCL 0600 to the MPC52xx to achieve galvanic isolation The optocouplers also take over the function of level shifting For galvanic isolation the following data applies e 1 3 9 e he J1850 interface of the MPC52xx is located in the Ethernet port group These pins are used Pin ETH 4 J02 through 41850 TX Pin ETH 13 M01 thro
32. e module e 1 LCD Graphics interface only for modules with graphics controller Connected to TQM5200 via LVC244A bus driver e 1 PS 2 keyboard and 1 x PS 2 mouse connector PIC controller 16F627 Connected to TQM5200 via PSC6 1 and debug interfaces for TQM5200 module processor and PLD On pin strips with typical pin assignment 1 Human interface 16 LEDs 16 LEDs with drivers 8 x on the graphics controller 4 x at the timer port 4 x at PSC3 e 1 Module signal interface for all module pins 320 pin interface 2 x 120 pins for processor signals 2 x 40 pins for graphics signals e 1 interface 3 3 V 2x 62 pin 32 bit standard PCI slot 1 IDE Master and Slave interface for Compact Flash and fixed hard disk Standard 50 pins IDE interface 5 V connected to ATA interface of MPC52xx on the TQM5200 for a Compact Flash Standard 44 pins IDE interface 5 V 2 mm pin strip for the fixed hard disk The Master Slave switching takes place via jumper e 1 Audio interface 1772 stereo audio DAC LM4867 dual 2 1 W audio amplifier 4pin strip on STK52xx not bound outward e 1 timekeeper e 1 Back up battery for RTC Starterkit and SRAM Module depending on versions Lithium battery 3 V 235 mAh 1 x Reset button e 1 Power supply from an external standard mains adaptor or power supply unit 12V 10 or 24 V 25 N d Page 12 sj
33. et socket and transformer RESET VCC Power Suppl GND ADDR lt 4 0 gt Management PWRDWN MDIO Mode Select MDC Logic Clock REFCLK Generator TxSLEW lt 1 0 gt MDDIS Lo aa Manchester TX EN Encoder 10 OSP odi TXD lt 3 0 gt P o Parallel Serial Scrambler 100 Lum TP Fiber TRE ccc TX_ER amp Converter amp Encoder e lt TX CLK San Auto Negotiation oy TDIO Register 5 TMS LED CFG lt 3 1 gt Set JTAG UIN m OSP TEST Collision Media Adaptive EQ with won Detect Clock Baseline Wander Generator Cancellation RX i d c e i Manchester 3 RXD lt 3 0 gt Manches toorx TP Fiber In RXDV o Parallel TPFIN carrier Sense Decoder amp Slicer SD TP CRS Data Valid Descrambler RX ER Error Detect 10BT 8 Illustration 6 LTX971 Block Diagram The RJ45 jack includes integrated LEDs yellow green and is completely shielded The transceiver module is connected to the TQM5200 module via the Ethernet interface Interrupt IRQ2 of the MPC52xx enabled via jumper X13 is used for the Ethernet interrupt Jumpers are available on the Starterkit to set various modes of the LXT971A e X13 gt Modes 18 gt Pause 5 e
34. f MIC2025 The USB interface is USB1 1 compatible The transfer rate conforms to the Low speed and the Full speed Specification With USB 2 0 Devices Full speed data rate can be achieved Page 21 lo components DGND Ground L Uti Vcw Vccsvbehndcurentimer SA wi lt 1 22 20 ws o N 202 penn Low active signal element to VCC pull up element to ground pull down gt element in series Table 12 Pin Assignment USB HOST Connector X8 bottom As additional ESD protection an array of diodes type SRV05 4 has been added to the signal lines In the Starterkit a connector with dual USB Host socket and RJ45 Ethernet socket is provided Only the lower USB socket is connected The upper USB socket is not implemented thus cannot be used 4 1 11 CAN Interface X83 Two CAN interfaces are implemented via the MSCAN interface of the MPC52xx Every CAN interface conforms to CAN Standard according to 15011898 CAN 2 0A 2 08 The interfaces of 5 controller can be routed to different processor pins of the MPC5200 which are connected on the TQM5200 module to the module pins For STK52xx the following configuration is specified TX 0 optionally at PSC2 0 configurable using 0 resistors option RX 1 optionally at PSC2 1 configurable using resistors option
35. f Reset 44 pins IDE IF Mu Disk VCC3V3 VCC5V J J 3 3V PCI 5V PCI Y PCI Interf CI Interface of Processors 5W DC DC 2 DC DC 2 DC DC SRAM RTC Battery Vin 8 40V Vin 8 40V Vin 8 40V Pin Rows with Module Signals 235mAh Ports Ctrl Signals of TQM Module in 12V ct 5 Monitoring 12V 10 24V 25 1 Illustration 1 STK52xx Rev 200 Block Diagram Page 11 User s Manual STK52xx UM 300 N lo components 3 2 Functionality 1 Ethernet interface with 10 100 Mbit transceiver LXT971A Controller in MPC52xx e 2x interfaces at lC and timer port PCA82C251 Galvanic isolation of the signals by optocouplers HCPL 060L and HCPL 0600 Galvanic isolation of power supply by DC DC converters 505 Controller in the MPC52xx 1 1850 bus with D SUB 9 connector AU5780A Philips Galvanic isolated signals on optocouplers HCPL 0600 and HCPL 060L Power supply on the external OBD Il interface or galvanically separated 12 V Controller in the MPC52xx 1x USB 1 1 Host interface USB1T11A with MIC2025 for power management USB host socket Controller in the MPC52xx e 2x RS232 interfaces RxD TxD RTS and CTS TxD and RxD transceiver on the module RTS and CTS transceiver on the Starterkit e 1 CRT Graphics interface only for modules with graphics controller Directly connected to th
36. hard disk drive Ne Page 42 Aq 01080 I User s Manual STK52xx UM 300 lo components 5 2 Assembly 5 2 1 Top Side 5 1651 5 08 DE F203 GER a GENR GEN THI 1 423 10 Illustration 11 Layout Diagram Top Side Page 43 User s Manual STK52xx UM 300 lo components 5 2 2 Bottom Side 2010 by TQ Components GmbH e e 9 e ecce 00000 e e e 20000 meee ee o 2 08 9 8 6 Heese e 8 EEE e 4 ms bd on arid bd fld be E 55 eon 88 E OAM 51 SE SE 5 5 3 Sco JSt di 88 Qu S gt AT gc B P E oam 00 zu A cw at 1023 418 0725 ei io e 5 u doe He me con E 28 EEEE a pee 5 00060 H cu T nt 8 oon ee 5 ee
37. igned to the following processor ports e LED 0 1 2 3 PSC3 0 PSC3 1 PSC3 2 PSC3 3 e LED 4 5 6 7 Timer4 5 Timer6 7 The other eight LEDs are assigned to graphics controller ports GPIO24 GPIO25 GPIO26 GPIO27 GPIO48 GPIO49 GPIO50 GPIO51 While using the Module without graphics controller the last eight LEDs cannot be used It should also be noted that if the ports PSC3 0 to PSC3 3 are used for other purposes e g for IDE Port or for using the second RS232 interface with activated LED driver the LEDs display the respective signal conditions of the corresponding ports 4 3 3 Module Connector D2 X1 D2 X4 120 pin and 40 pin Board to Board connectors with 0 8 mm pitch are used These connectors are available in different heights Board to Base Board Connector Board 5000888 Distance Table 20 Base Board Connectors N 34 sjueuoduJ02 O Aq 01080 User s Manual STK52xx UM 300 lo components 4 3 3 1 Pin Assignment Connector D2 X1 Group Function wrs200 BALL Fin Ne Daxi IMPCSXOBALL Funcion Group _____ ___ _2 11 Power _ Ethernet Eric Ethernet Pow 10 eman Ethernet ETH8 14 1 __ 33V Power Power _ 18 47 L0 ETH5 Power 26 25 __ 33 X Power __ 30
38. kO to VCC3 3V NC PERR direct from TQM5200 VCC3V3 Page 28 sjueuoduJ02 O Aq 01080 User s Manual STK52xx UM 300 lo components Pin Signal Type PCLSERR drect tom TOMS2008 000000 wee ven C BE1 _ direct from ao OO wee omo OO Direct from Diet fom 1 10 nF 1 3 3 x M66EN DGND jumper X52 1 66 MHz 0 33 MHz xime Oo xass ves 7 muss God 00000 V6CS3VopndVOON xke vow VEN 0 Low active signal element VCC pull up element to ground pull down element in series Table 16 Pin Assignment PCI Interface X47 mapon ntsXGmbH The signals of the PCI bus are fed without level shifter and or buffer driver directly to the TQM5200 module 4 1 15 IDE Interface for Compact Flash and Hard Disk An IDE and or ATA interface is available on the STK52xx The bus interface on the STK52xx is provided via standard IDE and or ATA connectors Since the ATA bus works with 5 V level shifters are used for the bus signals Page 29 lo components 4 1 15 1 IDE Interface for Hard Disk X48 Pin No Signal Type Description IATA RES o RES from module HW Re
39. nterface X29 had bid RR XR 38 4 5 Additional Components on 2 39 4 5 1 B NEr ID ACN RET m UU E 39 4 5 2 1lc H 39 4 6 Nue c 40 4 7 OW 41 4 7 1 12 V 24 V Connector X19 20 41 4 7 2 Line Filter Protective 41 5 IC ____ 42 5 1 Mou n ng 42 9 2 ASSO 43 5 2 1 lieto E 43 0 2 2 el TL 44 6 Safety Requirements and Protective 45 6 1 Climate Conditions and Operational 45 6 2 Dependability and Durability Service Life 45 6 3 Environmental Proteco IEEE YR TIE 45 PDS 46 7 1 Acronyms and 46 7 2
40. set or SW Reset PSC1 4 gt 22 5V fos beas 000 s jus fo peasy lt lt I O 22 0 5 22 5 Ls mw e ow o zav S wo omasv 00000110 Nb 000 DND o m ow o DND o Lom om 9 0 DND 00007110 oca _ Gable Select Jumper x68 1 2 Slave 10 KO 2 3 Master 13300 m o O S ata naar gt x css 5220 5 71 ka 0010 the module norassembed ____ Lm fon 9 tomar DOSE WO 100 ka GND 47 nF GND 8088 ATA ADRO from A16 22 Q 5 V OD Page 30 User s Manual STK52xx UM 300 Aq 01080 User s Manual STK52xx UM 300 lo components Pin No Signal Type Description DA2 ATA_ADR2 from A18 gt 22 0 5 V 7 os rom csao zav 0 51 from LP_CS5 gt 22 0 5 V 1 Inptfor HOD activity gt 220 5V opieral PEOR DEN OND VCC5V_FP 4 _ op DND X 4 nc NO _ Low active signal
41. specification is used to state the complete file name with its Filename ext corresponding extension Examples of an application e g Instructions e Specifying memory partitions Examples e Processing a script Reference Cross reference to another section figure or table Table 1 Terms and conventions Page 7 User s Manual STK52xx UM 300 lo components 1 3 Handling and ESD tips General handling of your TQ products The TQ product may only be used and serviced by certified personnel who have taken note of the information the safety regulations in this document and all related rules and regulations A general rule is not to touch the TQ product during operation This is especially important when switching on changing jumper settings or connecting other devices without ensuring beforehand that the system s power supply is switched off Violation of this guideline may result in damage destruction of the module and be dangerous to your health Improper handling of your TQ product renders the guarantee invalid Proper ESD handling The electronic components of your TQ product are sensitive to electrostatic discharge ESD Always wear antistatic clothing and use ESD safe tools packing materials etc and operate your TQ product in an ESD safe environment Especially when you switch modules on change jumper settings or connect other devices Page 8 sjueuoduJ02 O Aq 01080 3p
42. ted damages caused due to usage or non usage of the information given in the manual or caused due to usage of erroneous or incomplete information are exempted as long as there is no proven intentional or negligent fault of TQ Components GmbH TQ Components GmbH explicitly reserves the rights to change or add to the contents of this manual or parts of it without special notification 9 User s Manual STK52xx UM 300 lo components 2 General The STK52xx is a Starterkit with which Minimodule Type 5200 5 can be used The STK52xx Rev 200 Starterkit has been developed for the subsequent requirements listed below 1 Test and Development of MPC52xx based TQ Minimodules like the TQM5200 and derivative products 2 Description of the functions of TQ Minimodule is based on MPC52xx for presentations measurements etc 3 Development and test environment for realization and testing of additional function which are not implemented on the TQ Minimodules Standard product for direct use by the customer 5 The Starterkit provides all functions and interfaces of the TQ Minimodule Furthermore additional functions like RTC Sound and I O functionality are available 10 sjueuoduJ02 O Aq 01080 User s Manual STK52xx UM 300 lo components 3 System Architecture 3 1 Block Diagram 2 J1850B
43. ueuoduJ02 O Aq 01080 User s Manual STK52xx UM 300 lo components 4 Electronics Specification 4 1 External Interfaces In this section the interfaces of the STK52xx are described Generally on all signals which are routed via connector a discharger is implemented as an ESD preventive measure Excepted from it are interfaces which have ESD protection using the transceiver pony ins rS Ee TT RB on Come oz I 2 XE 1 881 III 8 a m I 4 qoonentsoGmbH Power Supply 2 at the top PS 2 Mouse at the top Audio 1 bottom PS 2 Keyboard bottom RS232 2 at the top Not equipped J1850 at the top Ethernet 10 100 at the top RS232 1 bottom CRT Video at the bottom USB top not used USB Host at bottom Illustration 2 Description of External Connectors Page 13 it components User s Manual STK52xx UM 300 4 1 1 CRT Interface X21 Some TQM5200 modules are equipped with a graphics controller The CRT interface is routed to a standard D SUB 15 connector re SN OREN ________ 35 feom VCCSVCR
44. ugh J1850 The use of the J1850 interface causes constraints with respect to the Ethernet interface With this only the 10 Mbps 7 wire interface can be used The use of the 10 100 Mbps 18 wire interface implemented on the STK52xx is not possible simultaneously with the J1850 interface Three 3 pin jumpers are necessary for the switchover X64 X74 X76 two for the signal path of the pins ETH 4 and ETH 13 and one for a GPIO input for the display of the mode set by the user The setting of the operation mode must be done when the unit is powered off so that the software at the time of switching on can read the setting during its initialization phase For mode setting pin PSC3 8 A05 as INIT ETH J1850 MODE is used The function modules of the PSC3 group can be used only to a limited extent owing to the allocation of PSC3 0 to PSC3 7 with LEDs That is why the mode setting is the least of problems here The jumper signal is connected via a 10 kQ resistor with PSC3 8 Thus the port pin is freely available as an output port after the initialization and is also available conditionally as an input port owing to the undefined status 0 or 71 via the 10 resistor The power supply to the AU5780A transceiver module is fed either by battery or a galvanic isolated voltage of 12 V max 24 V During operation the current consumption is approx 10 mA and in case of a short circuit at the bus max 60 mA The SAE J1850 VPW bus line
45. us ______ DC DC iid DC DC Transceiver amp Transceiver Convertor for 10 100 Convertor for D SUB 9 8 D SUB 9 777 11850 RJ 45 Socket CAN Comedor Connector ae __ 1 _ ag Opto coupler Opto coupler ext Vbatt 12V Ethernet 10 100 Mbit 120 Pin Connector Transceiver D2 X1 1 USB Host 1 bes Controller in Bus Transceiver s I Processor Sd 5 Switch Controller im A U Processor c Q 5 8 ini 0 CRT RGB Grafics e Minimodule S Connector TQM52xx 2 8 o 2 RS232 Connector 8 including Grafics RxD TxD Transceiver on the Module C Controller iy T LCD Grafics driver 8 Connector 120 Pin Connector RTC 5 2 02 3 I2C Bus Mouse 2 Socket GPIO s of Grafics PS 2 Mouse and Keyboard PS 2 N Audio Interface and Controller Keyboard Controllers on Pin Pin Rows Over PSC6 to the Processor Socket Rows PLD JTAG Processor Interface JTAG Debug Interface 50 pins IDE IF for Compact Flash NR 16 LEDs External Sources Pins o
46. xe 2 Jt850 RX galvaricisolaion Open 1 gaan isolation x ___2 GND galvanic isotation Open xm xw 3 _ Table 27 Jumper settings MT NM amp W W X58 gt lt gt lt m NO NO TH Co NO Page 40 sjueuoduJ02 O Aq 01080 mapon ntsXGmbH User s Manual STK52xx UM 300 It components 4 7 Power Supply The Starterkit can be supplied with the following voltages e 12V 10 fuse protection with 4 A fuse delivery status 24 V 25 fuse protection with 2 A fuse All other voltages are generated on the Starterkit using switching regulators Each voltage is protected with a self resetting fuse If the STK52xx is powered with 12 V these 12 V are directly supplied to the components on the STK52xx Different LED s indicates the various internal voltages status e VCC3V3 3 3 V 5 for TQM5200 module and for STK52xx Starterkit VCC3V3P 3 3 V 5 for PCI bus VCC5V 5 V 5 for STK52xx Starterkit VCC5VP 5 V 5 for PCI bus IDE bus and backlight e VCC12V 12 V 10 for backlight and for J1850 interface 4 7 1 12 V 24 V Connector X19 X20 Pin assignment of terminal block X20 Description 24 12 VCC 2 A 4 Table 28 Phoenix Terminal Block X20 Pin assignment of ja
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