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RH850 Evaluation Platform
RH850/E2x-468BGA
PiggyBack board T1
32
Y-RH850-E2X-468PIN-PB-T1-V1
All information contained in these materials, including products and product specifications,
represents information on the product at the time of publication and is subject to change by
Renesas Electronics Corp. without notice. Please review the latest information published by
Renesas Electronics Corp. through various means, including the Renesas Technology Corp.
website (http://www.renesas.com).
The newest version of this document can be obtained from the following web location:
http://www.renesas.eu/updates?oc=Y-RH850-E2X-468PIN-PB-T1-V1#documentInfo
www.renesas.com
R20UT4287ED0100, Rev. 1.0
2018-03-12
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Summary of Contents for Renesas PiggyBack Y-RH850-E2X-468PIN-PB-T1-V1
- Page 1 All information contained in these materials, including products and product specifications, represents information on the product at the time of publication and is subject to change by Renesas Electronics Corp. without notice. Please review the latest information published by Renesas Electronics Corp. through various means, including the Renesas Technology Corp.
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Page 2: Table Of Contents
Table of Contents Chapter 1 Introduction ................. 4 Chapter 2 Overview ................5 Overview of Y-RH850-E2X-468PIN-PB-T1-V1 ........5 Mounting of the Device ................ 6 Chapter 3 Power Supply ............... 7 Board Power Connection ..............7 Voltage Distribution ................8 Chapter 4 Clock Sources .............. - Page 3 Chapter 12 Revision History ..............33 R20UT4287ED0100 Rev. 1.0 2018-03-12...
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Page 4: Chapter 1 Introduction
The RH850/E2x Application Board is part of the RH850 Evaluation Platform and serves as a simple and easy to use platform for evaluating the features and performance of Renesas Electronics 32-bit RH850/E2x microcontrollers in a BGA-468 package. The PiggyBack board (Y-RH850-E2X-468PIN-PB-T1-V1) can be used as a standalone board, or can be mated with a mainboard (Y-RH850- X1X-MB-Tx-Vx) for extended functionality. -
Page 5: Chapter 2 Overview
Chapter 2 Overview Overview of Y-RH850-E2X-468PIN-PB-T1-V1 Figures 1 and 2 provide a schematic view of the Y-RH850-E2X-468PIN-PB-T1- V1 PiggyBack board. Figure 1 PiggyBack Board Top View The red arrow denotes the position of socket pin #1. Figure 2 PiggyBack Board Bottom View R20UT4287ED0100 Rev. -
Page 6: Mounting Of The Device
Mounting of the Device The Y-RH850-E2X-468PIN-PB-T1-V1 PiggyBack board features a socket for mounting of the device. All E2x in BGA-468 package do fit into the available Enplas OTB-468(961RS)-0.8-048S-00 socket: • RH850/E2H • RH850/E2UH • RH850/E2x-FCC2 for E2H • RH850/E2x-FCC2 for E2UH The device must be placed inside the socket IC1. -
Page 7: Chapter 3 Power Supply
Chapter 3 Power Supply Board Power Connection For operation of the device, a supply voltage must be connected to the board. There are several possibilities to power the device. Within this document the following voltages are considered as ‘typical’ values: Voltage1 = 5V Voltage2 = 3.3V Voltage3 = 1.09V... -
Page 8: Voltage Distribution
Voltage Distribution The table shows the required device power supply pins. For detailed explanation of their function and specification, please refer to the user documentation of the corresponding device: Table 1 Available Power Domains for MCU Device Supply Pin SYSVCC EnVCC (n = 0-2) LVDVCC EMUVCC... - Page 9 Note: Although typically 1.09V is specified as the input voltage to VDD and EMUDVV the output of the voltage regulator IC19 is slightly increased to 1.12V (see Chapter 11 ‘Schematic’). With this sufficient high voltage is applied, even in case of any possible voltage drops. +3.3V JP12 E0VCC...
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Page 10: Chapter 4 Clock Sources
Chapter 4 Clock Sources External crystal oscillators for the device clock supply are provided with the board. 4.1.1 MainOSC A crystal or ceramic resonator can be mounted on socket X1. A 20 MHz and 40MHz oscillator are supplied with the board. The signals X1 and X2 are by default not connected to a pin header in order to minimize disturbance on the resonator signal. -
Page 11: Chapter 5 Debug And Programming Interface
Chapter 5 Debug and Programming Interface The signal ‘EVTO’ from below connectors can be pulled up to ‘E0VCC’ via JP28. Please refer to the documentation of the used tool, whether this is needed. The signal ‘TRST’ from below connectors can be pulled up to ‘SYSVCC’ or to the ‘TRST’... - Page 12 The signal connection of the connector CN10 is shown in the table below: Table 4 Pin Assignment of CN10 CN10 CN10 Function Function TODP0 TODN0 Reserved (NC) Reserved (NC) TRST Reserved (NC) Reserved (NC) EVTI (P33_8) EVTO (P33_9) Reserved (NC) Reserved (NC) RES_IN Reserved (NC)
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Page 13: Chapter 6 Connectors For Ports Of Device
Chapter 6 Connectors for Ports of Device Pin Header for Device Pins Connection to most functional pins of the devices is possible via the connectors CN5 to CN8, CN14 and CN16 to CN18. Some functions might not be available on the pin headers, e.g. high frequency signals, as this would disturb the integrity of such signals. - Page 14 Column A Column B Column C P22_8 P22_7 P22_6 P22_3 P22_4 P22_5 P22_2 P22_1 P22_0 AURORES P23_5 P23_6 P23_7 P23_4 P23_3 P23_2 P25_0 P23_0 P23_1 P25_1 P25_2 P25_3 P25_6 P25_5 P25_4 P25_7 P25_8 P25_9 P25_12 P25_11 P25_10 P25_13 P25_14 P25_15 P26_0 P26_1 P31_15...
- Page 15 Column D Column E Column F P13_5 P13_6 P13_7 P13_4 P13_3 P13_2 P13_1 P13_0 P11_10 P11_7 P11_8 P11_9 P11_6 P11_5 P11_4 P11_1 P11_2 P11_3 P12_8 P12_9 P11_0 P12_5 P12_6 P12_7 P12_2 P12_3 P12_4 P14_12 P12_0 P12_1 P14_9 P14_10 P14_11 P14_8 P14_7 P14_6 P14_3...
- Page 16 Column G Column H Column I AN350 AN351 AN273 AN360 AN352 AN353 AN361 AN362 AN363 AN320 AN321 AN322 AN310 AN311 AN323 AN300 AN312 AN313 AN301 AN302 AN303 AN370 AN371 AN372 P00_11 P00_10 AN373 P00_9 P00_8 P00_7 P00_6 P00_5 P00_4 P00_3 P00_2 P00_1 P01_3...
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Page 17: Toggle Switch For Reset
Column J Column K Column L P33_4 P33_5 P33_6 P33_3 P33_2 P33_3 P34_4 P33_0 P34_3 P34_2 P34_1 AN100 AN101 P34_0 AN110 AN102 AN103 AN111 AN112 AN113 AN120 AN121 AN122 AN060 AN061 AN123 AN050 AN062 AN063 AN051 AN053 AN052 AN040 AN041 AN042 AN020 ADSVCL... -
Page 18: Mode Selection
Part No. marking side Figure 6 RESET Switching Function LED1 is indicating the function of the switch, i.e. LED1 illuminates when the RESET is asserted by the switch. Please note that LED1 cannot indicate a RESET by another source e.g. a connected tool. Mode Selection The PiggyBack Board gives the possibility to configure the following mode pins •... -
Page 19: Rhsif I/F
Table 9 CAN Function Assignment PiggyBack Board (MCU) Mainboard Port Pin CAN Alternative Function CAN0TX P32_1 CTX2 CAN0RX P32_0 CRX2 CAN1TX P15_2 CTX1 CAN1RX P15_1 CRX1 CAN2TX P02_0 CTX0 CAN2RX P02_2 CRX0 CAN3TX P32_6 CTX3 CAN3RX P32_4 CRX3 CAN4TX P15_7 CTX4 CAN4RX P15_8... -
Page 20: Hs-Spi I/F
CN11 Device Device CN11 Device Function Function Function HSIF0_RXDP P21_3 HSIF0_TXDP P21_5 HSIF0_RXDN P21_2 HSIF0_TXDN P21_4 Note 1 & 2: The function of CN11 pins 1, 3, 7 and 9 depend on the configuration of JP35 • JP35 pins 1 and 2 connected: Function *1 is effective •...
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