NXP Semiconductors Freescale KIT33905 User Manual Download

Page: 7 / 22

KIT33905 Evaluation Boards

, Rev. 2.0

Freescale Semiconductor

Hardware Configuration

KIT33905D5EKEVBE/KIT33905BD3EVBE operates with a single 5.5 V minimum power supply and can

be driven with the KITUSBSPIDGLEVME along with its GUI. For added flexibility, it's also possible to

develop a custom board to drive this evaluation board via the 16 pin standard header.

6.1

Board Implementation

For Standard EVB configuration, set up the jumpers as shown on

Figure 3

. If the jumper configuration is

in accordance with

Jumper Connections, on page 8

, The VDD (D3) and the 5V_CAN (D4) LEDs must be

ON at startup. If CAN communication will be exercised, populate the CAN termination socket (J13) with

the necessary components to implement the chosen CAN Termination as shown on

Figure 4

JUMPER

POSITION

J15

1-2

J21

1-2

J22

1-2

J23

OPEN

J24

OPEN

J27

1-2

J28

OPEN

J22

J2 pSPI Control

J1 External Control

J21

J23

J27

J24

J12

CAN Termination

(Power)

CAN Bus

J28

J15

CON2

LIN2 Bus

CON1

LIN1 Bus

Figure 3. Manual Mode Jumper Settings

Summary of Contents for Freescale KIT33905

Page 1: ...KEVBE 5 Volt KIT33905BD3EVBE 3 3 Volt Figure 1 KIT33905D5EKEVBE KIT33905BD3EVBE Evaluation Boards Table of Contents 1 Kit Contents Packing List 2 2 Important Notice 3 3 Introduction 4 4 Required Equip...

Page 2: ...ards Rev 2 0 2 Freescale Semiconductor Kit Contents Packing List 1 Kit Contents Packing List KIT33905D5EKEVBE or KIT33905BD3EVBE Hardware CD33905 includes SPIGen Software CABLE RIBBON FLAT 16 PIN ASSY...

Page 3: ...the date of delivery and will be replaced by a new kit Freescale reserves the right to make changes without further notice to any products herein Freescale makes no warranty representation or guarant...

Page 4: ...graphical user interface paired up with the SPI dongle board KITUSBSPIDGLEVME through the 2x8 pin ribbon cable Additionally for added flexibility the user can implement a custom board with a microcon...

Page 5: ...des CAN or LIN bus I O transition automatic timer SPI message and VDD over current detection Voltage current and temperature protection with enhanced diagnostics that can be monitored by the system vi...

Page 6: ...KIT33905 Evaluation Boards Rev 2 0 6 Freescale Semiconductor EVB Setup Configuration 5 EVB Setup Configuration Figure 2 EVB Setup Configuration Diagram...

Page 7: ...Standard EVB configuration set up the jumpers as shown on Figure 3 If the jumper configuration is in accordance with Jumper Connections on page 8 The VDD D3 and the 5V_CAN D4 LEDs must be ON at startu...

Page 8: ...implemented J23 I O0 configuration 1 2 closed 4 7 kohm pull down resistor to GND and indicator LED implemented 2 3 closed 15 kohm pull up resistor to VSUP and indicator LED implemented J24 I O1 config...

Page 9: ...with VDD ON a transition on CS is a wake up condition 5 TXDC_I CAN bus transmit data input Internal pull up to VDD 6 RXDC CAN bus receive data output 7 I_WAKE_I Active high input to enable on board F...

Page 10: ...in function is to reset the MCU It has an internal pull up to VDD The reset input voltage is also monitored in order to detect external reset and safe conditions 6 MOSI SPI data received by the device...

Page 11: ...rents are sufficient to supply the device 4 To use SPIGen go to the Windows Start menu Programs SPIGen and click on the SPIGen icon The SPIGen Generic SPI Generator GUI will appear 5 Go to the Configu...

Page 12: ...exits DEBUG Mode overrides hardware configuration Adds command to Sequential Mode sequence Adds all commands on tab to Sequential Mode sequence Figure 5 SPIGen Graphical User Interface Commands and Fl...

Page 13: ...of corresponding tab address bits 15 8 not shown Device Selection Function to be written of corresponding tab Send command as configured to corresponding tab address Read device status and enabled fun...

Page 14: ...on tab to Sequential Mode sequence Read device status and enabled functionality Read Device Mode keeps SAFE functionality and exits DEBUG Mode overrides hardware configuration Figure 7 SPIGen Graphica...

Page 15: ...ds sent and received from the SBC s MOSI and MISO pins Figure 8 SPIGen Graphical User Interface Sequential Mode 1 Click Sequential Mode tab This window displays all commands in the Sequential Mode seq...

Page 16: ...of device s features Mouse over for Information Automated state diagram Mouse over for information Figure 9 SPIGen Graphical User Interface Automated State Diagram Mode 1 Click Diagram tab 2 Select No...

Page 17: ...NC_4 20 NC_5 21 NC_6 22 NC_7 27 NC_8 28 NC_9 29 NC_10 30 NC_11 32 NC_12 33 NC_13 34 NC_14 35 NC_15 52 NC_16 53 NC_17 54 J21 HDR 1X2 J21 HDR 1X2 1 2 R20 4 7K R20 4 7K D1 MBRS140 D1 MBRS140 2 1 D13 1N41...

Page 18: ...KIT33905 Evaluation Boards Rev 2 0 18 Freescale Semiconductor Board Layout 9 Board Layout 9 1 Assembly Drawing Figure 11 Assembly Drawing 9 2 Top Side Layer Figure 12 Top Side Layer...

Page 19: ...KIT33905 Evaluation Boards Rev 2 0 Freescale Semiconductor 19 Board Layout 9 3 Bottom Side Layer Figure 13 The Bottom Side Layer...

Page 20: ...TSW 108 07 G D 15 1 J13 DIP14 SKT DIP 14 PINS TH 3M ICE 143 S TG30 16 5 J15 J21 J22 J27 J28 HDR 1X2 HDR 1X2 TH 100MIL SP 330H SN SAMTEC TSW 102 07 T S 17 2 J23 J24 HDR_1X3 HDR 1X3 TH 100MIL SP 330H AU...

Page 21: ...om files analog doc fact_sheet MC33903_4_5FS pdf Application Note www freescale com files analog doc app_note AN3865 pdf Errata http www freescale com files analog doc errata MC33903_4_5ER pdf SPIGen...

Page 22: ...in this document Freescale Semiconductor reserves the right to make changes without further notice to any products herein Freescale Semiconductor makes no warranty representation or guarantee regardi...

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