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RC32012A
Evaluation Kit
The RC32012A evaluation board allows customers to
evaluate Renesas ClockMatrix devices (e.g.,
RC32012A, QFN-72). This document discusses the
following:
▪ The board's design, its power supply, and jumper
settings
▪ The input and output connectors for normal
operation
▪ How to bring up the board using the Timing
Commander software GUI
▪ How to configure and program the board to
generate standard-compliant frequencies
Kit Contents
The RC32012A EVK ships with the following:
▪ RC32012A Evaluation Board
▪ USB Type-A cable
R31UH0010EU0102 Rev.1.02
Apr 20, 2022
PC Requirements
▪ Renesas
▪ ClockMatrix GUI
▪ USB 2.0 or USB 3.0 interface
▪ Windows XP SP3, or later
▪ Processor: Minimum 1GHz
▪ Memory: Minimum 512MB; recommended 1GB
▪ Available Disk Space: Minimum 600MB (1.5GB,
▪ Network access during installation if the .NET
Figure 1. RC32012A Evaluation Board
Evaluation Kit Manual
Timing Commander Software
64-bit); recommended 1GB (2GB, 64-bit)
framework is not currently installed on the system
© 2021-2022 Renesas Electronics
installed
Page 1
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Summary of Contents for Renesas RC32012A
- Page 1 Evaluation Kit Manual RC32012A Evaluation Kit PC Requirements The RC32012A evaluation board allows customers to evaluate Renesas ClockMatrix devices (e.g., ▪ Renesas Timing Commander Software installed RC32012A, QFN-72). This document discusses the ▪ ClockMatrix GUI following: ▪ USB 2.0 or USB 3.0 interface ▪...
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Page 2: Table Of Contents
RC32012A Evaluation Kit Manual Contents Board Design ............... . 3 Board Power Supply . -
Page 3: Board Design
Detailed descriptions are included below. Figure 2. RC32012A Evaluation Board – Detailed ▪ Input SMA connectors – There are five differential inputs labeled CLK0/nCLK0 - CLK4/nCLK4. Each input clock can be configured differentially (LVDS, PECL 2.5V, and PECL 3.3V) or in single-ended format (CMOS). -
Page 4: Board Power Supply
RC32012A Evaluation Kit Manual ▪ SysDPLL Input (Optional) – An SMA connector, J46, is provided to supply a local OCXO/TCXO reference as an optional reference for System DPLL. ▪ Crystal: A crystal of various frequencies must be present for board operations. A 3225 footprint is provided for SMT crystals. -
Page 5: Gpio Switches, Leds, And Test Points
RC32012A Evaluation Kit Manual Note: VDD_FOD voltage is selected by resistor R908 and R909. In order to prevent damage to the device, both R908 and R909 should not be stuffed, in which case VDD_FOD = 1.8V. GPIO Switches, LEDs, and Test Points An 8-bit, 3-position dip switch is used to set the logic levels for seven GPIOs (GPIO0-5, GPIO9). -
Page 6: I2C Between Ftdi, Clockmatrix Device, And On-Board Eeprom
RC32012A Evaluation Kit Manual I2C between FTDI, ClockMatrix Device, and On-board EEPROM One of the major differences between the QFN-72 ClockMatrix device and its BGA-144 counterpart is that there is only one serial bus on the QFN-72 device. The I2C bus between the FTDI chip and ClockMatrix device is the same bus between the ClockMatrix device and the on-board EEPROM. - Page 7 RC32012A Evaluation Kit Manual Figure 5. Board Setting for Default Operation Note: In order to set GPIO9 to “High”, the switch for GPIO9 must be set either to the “+” (high) position or the center position. Before proceeding to communicate to the ClockMatrix device using the Timing Commander GUI, two I2C connection methods are introduced: 1.
- Page 8 ClockMatrix evaluation board. When using the FTDI dongle to connect to a customer board, in Timing Commander “Connection Settings” window, “On-board USB (SPI)” is selected in Connection Interface box (see Figure 10), same as connecting to a Renesas evaluation board. R31UH0010EU0102 Rev.1.02 Page 8...
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Page 9: Using Timing Commander To Control The Board
RC32012A Evaluation Kit Manual Using Timing Commander to Control the Board Once the default operation is successful, complete the following steps using Timing Commander to configure and program the ClockMatrix device as per your application requirements. 1. Power up the board and set the main serial port in I2C mode by GPIO9 = “high”. See... - Page 10 3. After selecting “New Settings File”, a device selection window will appear. In the window, choose the intended device in the list (RC32012A is selected in this example). Click the button at the lower right corner of the window (red circle) to browse and select the correct personality file (in this example, personality Version 10.0.1 is selected), then click OK.
- Page 11 RC32012A Evaluation Kit Manual 4. The GUI window with the RC32012A block diagram will open for configurations; or if “Open Settings File” is selected in Step 5 above, you will be prompted to browse and select an existing .tcs file and the personality file.
- Page 12 RC32012A Evaluation Kit Manual 6. Click the chip symbol at the up-right corner to initiate the connection. The connection is made with a green band appearing at the up-right corner of the window, as shown below. Figure 11. Green Band Appears when a Valid Connection is Made 7.
- Page 13 RC32012A Evaluation Kit Manual 8. Once the connection is made, the firmware version can be read within the GUI. Click the “Firmware Utility” button to bring up the Firmware Utility window, as shown below. Figure 13. Reading Firmware Version 9. Within Firmware Utility window, click the “Get Firmware Version” button will read the firmware version.
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Page 14: Output Terminations And Rework To Take 1Pps Input
RC32012A Evaluation Kit Manual Output Terminations and Rework to Take 1PPS Input All outputs are terminated by a 100-ohm resistor across the output pair. This is the recommended termination regardless of the Voffset and Vswing settings. Since the outputs are DC-coupled, they will support a 1PPS output without any need for rework. -
Page 15: Appendix A. How To Upgrade The Firmware
RC32012A Evaluation Kit Manual Appendix A. How to Upgrade the Firmware Upload Firmware to the RAM 1. Connect to the EVB. 2. Power up the EVB with No EEPROM Present. This ensures the FW is 4.0.2.7017. 3. The GUI will indicate that the FW on the Chip does not match the GUI FW. Press “Close”. - Page 16 RC32012A Evaluation Kit Manual 6. In the next dialog, press “Yes” and wait around 4 minutes. 7. Once the FW updates, a dialog will indicate a successful update. 8. Press “Get Firmware Version” to verify that the RAM was updated correctly.
- Page 17 RC32012A Evaluation Kit Manual Upload Firmware to the EEPROM 9. Once the Firmware has been updated to the chip (steps 1 to 8), install the EEPROM on the EVB. 10. Press a. EEPROM Utility b. Connect to EEPROM c. Write Firmware to EEPROM 11.
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Page 18: Ordering Information
RC32012A Evaluation Kit Manual 13. In the next window, press “Close” to start the EEPROM write. 14. Wait about 5mins. The EEPROM write will complete with this window below. Press “Close”. Verify the EEPROM Programming 15. Power cycle the Evaluation Board. - Page 19 PROJECT NAME PROJECT NAME PROJECT NAME Fidus Systems Fidus Systems Fidus Systems Indira3 Indira3 Indira3 375 Terry Fox Drive, Ottawa, ON K2K 0J8 375 Terry Fox Drive, Ottawa, ON K2K 0J8 375 Terry Fox Drive, Ottawa, ON K2K 0J8 TITLE TITLE TITLE DESIGN...
- Page 20 VDDO_Q3 VDDO_Q2 VDDO_Q1 VDDO_Q0 VDDO_Q8 VDD_FOD_0 CLK_Q8_P CLK_Q8_N CLK_Q0_P CLK_Q0_N CLK_Q1_P CLK_Q1_N CLK_Q2_P CLK_Q2_N GPIO0 GPIO4 GPIO5 Maximum voltage on pin 7 = 1.8V U409 VDD_FOD VDDA_0 OSCO OSCO CLK_Q3_P OSCO OSCI VDDO_Q9 OSCI OSCI CLK_Q3_N SILKSCRN: VDD_FOD_0 VDDA_PDCP_XTAL VDDO_Q9 XO_DPLL VDDA_FB CLK_Q9_P...
- Page 21 Board 3V3 VDDD SILKSCRN: R9747 0.00 1206L350SLTHYR 3.3V Top VIN_1 VOUT_10 VIN_1 VOUT_10 2.5V Bot R599 R706 VIN_2 VOUT_9 C842 C963 VIN_2 VOUT_9 C864 C866 R703 10.0K 1.8V Float 1 9 - 0 2 - 1 4 R v R 26.7K 20.0K 111-0702-001...
- Page 22 VDDO_Q8_3_5 SILKSCRN: VDDO_Q2_4_11 3.3V Top SILKSCRN: VIN_1 VOUT_10 2.5V Bot 3.3V Top VIN_2 VOUT_9 VIN_1 VOUT_10 C971 C811 1.8V Float 10.0K 20.0K 2.5V Bot 0.1uF 22uF 10uF GND_8 VIN_2 VOUT_9 C983 C815 1.8V Float 10.0K 20.0K 12.0K 0.1uF 22uF SILKSCRN: 10uF CSET GND_8...
- Page 23 VCC_GPIO_DC 1V8_FTDI U403 3V3_FTDI VCCB VCCA R9771 5V0_USB R410 CLK_FTDI_PLL_SCL_OD VCORE ADBUS0 R411 FTDI_PLL_SDI_OD VCORE ADBUS1 R9770 FTDI_PLL_SDA_OD VCORE ADBUS2 R9760 ADBUS3 FTDI_PLL_nCS_OD VIN_8 VOUT_1 VCCIO ADBUS4 VCCIO ADBUS5 VIN_7 VOUT_2 VCCIO ADBUS6 VCCIO ADBUS7 VBUS R424 VREGOUT ACBUS0 GND_PAD USBD_P ENABLE VREGIN...
- Page 24 Note for Silkcreen: Place GPIO[x] lable close to each corresponding LED and Test point. VCC_GPIO_DC VCC_GPIO_DC VCC_GPIO_DC VCC_GPIO_DC R487 GPIO[0] R488 GPIO[1] R491 GPIO[2] R492 GPIO[3] LNJ347W83RA LNJ347W83RA LNJ347W83RA LNJ347W83RA GPIO0 GPIO0 GPIO0 GPIO1 GPIO2 GPIO3 GPIO1 GPIO1 GPIO2 GPIO2 GPIO3 GPIO3 GPIO4...
- Page 25 SILKSCRN: Place close to OSCI crystal Y3 R469 R470 R468 C759 1.0uF OSCI R471 R472 R9750 OSCO R9751 1 9 - 0 3 - 1 3 5-1814832-1 C765 12pF C766 12pF C996 0.1uF I2 Bus JP12~JP15 Default Jump Up 2 5 - 1 1 - 1 5 R117 CX3225GB50000P0HPQCC CLK_FTDI_PLL_SCL_OD...
- Page 26 TP19 SILKSCRN: R143 CLK_EXT_OSC CLK OSC PLACE NEAR OSCILLATOR 2 0 - 0 3 - 1 3 R K M6141LF R K 1 9 - 0 3 - 1 3 12.8MHZ MERC 9X7 HOT CMOS 3.3V OCXO 5-1814832-1 VDD_CLK0 VDD_CLK0 R912 R913 CLK4_P_SMA...
- Page 27 PLACE PARALLEL TERMINATIONS CLOSE TO U58 SILKSCRN: R731 R729 R730 SILKSCRN: SILKSCRN: Q0_P CLK_Q0_P CLK_Q4_P CLK_Q8_P Q4_P Q8_P R K 1 9 - 0 3 - 1 3 R K 1 9 - 0 3 - 1 3 R K 1 9 - 0 3 - 1 3 5-1814832-1 5-1814832-1 5-1814832-1...
- Page 28 VDDA VDDA_0 VDD_CLK0 VDD_CLK0_0 R875 R876 VDDA_1 R877 VDD_FOD R879 VDD_FOD_0 R882 VDD_FOD_2 VDDO_Q8_3_5 VDDO_Q8 VDDO_Q1_10_7 VDDO_Q1 R885 R886 R887 VDD_FOD_5 VDDO_Q3 VDDO_Q10 L100 R888 L103 R889 L104 VDDO_Q5 VDDO_Q7 R891 L105 R892 L106 VDDO_Q0_9_6 VDDO_Q0 VDDO_Q2_4_11 VDDO_Q2 R894 R895 VDDO_Q9 VDDO_Q4 R896...
- Page 29 Renesas' products are provided only subject to Renesas' Terms and Conditions of Sale or other applicable terms agreed to in writing. No use o any Renesas resources expands or otherwise alters any applicable warranties or warranty disclaimers for these products.