ABLE OF ONTENTS ... 3 ABLE OF ONTENTS ... 4 TART NSTRUCTIONS 2.1. INSTALLING THE EVALUATION DEVELOPMENT KIT (EDK)... 4 2.2. SERIAL CONNECTION ... 4 2.3. POWER SUPPLY ... 4 EDK B ... 5 OARD AYOUT 3.1. EDK BLOCK DIAGRAM... 5 EDK O ...
Please refer to the quick start guide provided for initial installation of the EDK. A copy of the quick start guide and other information relating to this EDK at: http://www.eu.renesas.com/tools Installing the EDK requires power and serial connection to a host computer.
EDK B OARD AYOUT The diagram shows a general layout of the EDK board. FLASH Programming Power Switch Power LED User1 LED User2 LED RESET Switch 9-Way D-Type 3.1. EDK B LOCK IAGRAM The diagram shows the connectivity of the components on the EDK board. External RS232 Programming...
EDK O PERATION 4.1. USER INTERFACE The EDK provides two buttons for influencing the operation of the board. The purpose of each button is clearly marked next to it. Refer to the board layout for positions (Section 3) Reset Switch This button provides the microcontroller with a reset pulse utilizing the built in power on reset control of the device.
4.2.2. C RYSTAL HOICE The operating crystal frequency has been chosen to support the fastest operation with the fastest serial operating speeds. The value of the crystal is 18.432MHz. The following table shows the baud rates and Baud Rate Register (BRR) setting required for each communication rate using the above default operating speed.
4.4. I2C EEPROM The board has been tested with an Atmel AT24C04AN-10SI-2.7 I2C EEPROM device (Not supplied). The device is configured to connect to dedicated I2C pins on Ports P56 and P57. 4.5. LIN I NTERFACE The board has been tested with an Philips TJA1020TD device (Not supplied). The device should be connected to P71 and P72 using 0R links on R29 and R31.
OARD PTIONS The EDK has a number of configuration settings set by four jumpers CJ4 (A, B, C, D) and zero-ohm links. Common EDK functions can be set using the jumpers as described in sections 5.2. The additional zero-ohm links provide additional features that may be required to interface with other systems.
5.2. EDK O – CJ4 PTIONS The EDK options provide access to commonly used features of the EDK range. These jumpers must be fitted at all times to ensure correct operation of the EDK. Jumper Function CJ 4-A Serial Receive Default 1-2 Source CJ 4-B...
5.3. O PTION ELECTION The following sections show the option links that apply to each peripheral device. The tables all use the same key of symbols which is given below: X – Groups of options one set of which must be fitted for correct operation of the EDK. O –...
Select the FDM header using CJ4-C as marked on the silk screen. Please refer to section 5.2. 5.5. EXTERNAL DEBUG HEADER The External debug header may be used with the Renesas E10T Debugger, Renesas LEM Debugger or a third party debugger.
ICROCONTROLLER EADER The following table lists the connections to each or the headers on the board. 6.1. H EADER Function EDK Symbol TEST (No Connection) CON_X2 PB7/AN7 PB5/AN5 PB0/AN0 PB2/AN2 P17/IRQ3n/TRGV P15/IRQ1n/TMIB1 P72/TXD_2 P70/SCK3_2 P22/TXD PTXD P20/SCK3 PSCK 6.2. H EADER Function EDK Symbol...
EVELOPMENT 7.1. HMON 7.1.1. M UPPORT The HMON library is built to support Normal Mode only. 7.1.2. B REAKPOINT UPPORT The monitor utilises the Address Break Controller for code located in ROM, allowing a single breakpoint to be set in the code. Code located in RAM may have multiple breakpoints limited only by the size of the On-Chip RAM.
NTERRUPT MASK SECTIONS The EDK3687 has fixed interrupt priorities. The serial (SCI3 )port interrupt is used by HMON. The Real Time clock, external interrupt and Timer V interrupts have a higher priority than the serial port. If these interrupts are used HMON may not function correctly.