User's Manual Cover RH0 Evaluation Platform RH0/Xx MainBoard Y-RH0-XX-MB-T-V 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-rh0-xx-mb-t-v www.renesa s.com R0UT0E00 Rev.. 0-0-
Table of Contents Cover... Table of Contents... Chapter Introduction.... Board Overview... Chapter Power Supply.... Power connectors.... Voltage Regulators.... Other voltages..... IO voltage..... Module supply voltage..... Miscellaneous settings... Chapter Board functions.... UART Interface.... L Interface.... CAN Interface.... FlexRay Interface.... Ethernet Interface.... PSI Interface.... SENT Interface.... igital IOs.... Push Buttons... 0.0 Analog measurements... 0. Signal LEs.... LC Interface... Chapter Precautions.... LC Interface.... Ethernet Interface.... CAN interfaces... Chapter Revision History... Chapter Appendix A: PiggyBoard connector CN... Chapter Appendix B: PiggyBoard connector CN... Chapter Appendix C: PiggyBoard connector CN... 0 Chapter Appendix : Schematic... R0UT0E00 Rev.. 0-0-
RH0/Xx Chapter Introduction The RH0/Xx Application Board serves as a simple and easy to use platform for evaluating the features and performance of Renesas Electronics -bit RH0/Xx microcontrollers. The Main Board (Y-RH0-XX-MB-T-V) can be used as a standalone board, or can be mated with one of several Piggyback Boards (e.g. Y-RH0-FX-P-PB-T-V) for extended functionality. Features: User interaction through switches, buttons and LEs Connections for various serial interfaces like RS, L, CAN, FlexRay, Ethernet and PSI. High density piggyback board connectors Single V board power supply with onboard voltage regulators Through-hole prototyping area This document will describe the functionality provided by the Application Board and guide the user through its operation. For details regarding the operation of the microcontroller, refer to the RH0/Xx User Manual.. Board Overview The figure below provides a view of the Main Board. R0UT0E00 Rev.. 0-0-
RH0/Xx Chapter Power Supply A typical voltage of V must be supplied to the board. The required voltages for operation of the onboard modules (.V and.0v) are derived from this voltage by dedicated voltage regulators. etails of the board power supply are described in the chapters below.. Power connectors The board operation voltage is supplied to the board by the following connectors: Table - Connector escription Function CN mm red laboratory connector V supply CN CN mm black laboratory connector.mm coaxial connector VSS/GN supply V & VSS/GN supply: Tip: V Barrel: VSS/GN A blue LE (LE) signals the availability of the V board supply voltage. Caution: o not supply different voltages to CN/CN and CN simultaneously. Note: The board is shipped with a V/A output AC/C converter. The output of the converter can be connected directly to the.mm coaxial connector CN. epending on the used PiggyBoard or the devices operating condition (e.g. use of trace function), the converter s power rating of W may not be sufficient for operation of the MainBoard and the PiggyBoard. In that case use an AC/C converter with a higher power rating or use a laboratory power supply with a matching rating at the connectors CN/CN.. Voltage Regulators Two C/C regulators are available for generation of.v and.0v for use by device modules. For each voltage a LE signals generation of the related voltage (see table - below). Table - Regulator escription Signal LE IC.0V (typical) LE IC0.V (typical) LE R0UT0E00 Rev.. 0-0-
RH0/Xx. Other voltages.. IO voltage For some of the board modules, it is possible to input a dedicated IO voltage different from the module supply voltage. This IO voltage (named VIOF) is not generated on the MainBoard, but must be set on the PiggyBoard. Still, availability of the voltage is signaled by LE. Refer to the documentation of the PiggyBoard on how to set the IO voltage... Module supply voltage The supply voltage of each module must be set by jumper. Refer to the description of each module within this document for details. For some modules (e.g. Ethernet) the signal voltage level is defined by its supply voltage. Therefore the related port voltage of the device on the PiggyBoard must be configured for the same voltage level as the module s supply voltage... Miscellaneous settings The supply voltage of the microcontroller device on the PiggyBoard is derived from the output of the two C/C regulators on the MainBoard. The selection of which voltage the device will operate from, must be done on the PiggyBoard. Therefore refer to the documentation of the PiggyBoard voltage supply for details. R0UT0E00 Rev.. 0-0-
RH0/Xx Chapter Board functions This section describes functions and modules that are available on the MainBoard.. UART Interface Two UART interfaces, with RS drivers are provided on the board. To connect the UART signals of the device available on CN (Piggyboard device connector) to the UART transceivers, close SW for UART0 and SW for UART. In case different device signals shall be connected to the UART transceivers, the headers CN (for UART0) and CN0 (for UART) can be used. Connect a small wire between the related signals of the device on the PiggyBoard and the UART transceiver. To supply the voltage for the UART transceiver (MAX), the pin header CN must be closed. To enable an on-board loop of UART0 to UART, the switch SW can be closed. The table - shows the signal mapping of the UART SUB connectors: Table - SUB Connector CN CN UART Interface UART0 UART Pin Number Function Rx Tx GN Others - Rx Tx GN Others -. L Interface Two L interfaces, with L signal level (V), are provided on the board. To connect the L signals of the device available on CN (Piggyboard device connector) to the L interfaces, close SW0 for L0 and SW for L. As often L and UART signals are shared by the same macro of the device switches SW (for UART0 signals) and SW (for UART signal) are provided to connect the UART signals of CN to the L drivers. In case different device signals shall be connected to the L interface, the headers CN and CN can be used. Connect a small wire between the related signals of the device on the PiggyBoard and the L drivers. To supply the voltage for the L driver (TJA00T or TJA 0T), the pin header CN (for L0) and CN0 (for L) must be closed. To enable an on-board loop of L0 to L, the switch SW can be closed. Several pin headers are provided to configure the inputs of the L driver (TJA00T or TJA0T). For details refer to the schematic and the reference documentation of the L driver. R0UT0E00 Rev.. 0-0-
RH0/Xx This table - shows the signal mapping of the L SUB connectors: Table - SUB Connector CN CN L Interface L0 L Pin Number Function, GN L Others -, GN L Others -. CAN Interface Two CAN interfaces (CAN0, CAN) with CAN signal levels are provided on the board. To connect the CAN signals of the device available on CN (Piggyboard device connector) to the CAN interfaces, close SW for CAN0 and SW for CAN. In case different device signals shall be connected to the interface the headers CN (for CAN0) and CN (for CAN) can be used. Connect a small wire between the related signals of the device on the PiggyBoard and the CAN drivers. To supply the IO voltage for the CAN transceivers (TJA0AT), the pin header CN (for CAN0) and CN (for CAN) must be closed. Several pin headers are provided to configure the inputs of the CAN driver (TJA0AT). For details refer to the schematic and the reference documentation of the CAN driver. To enable an on-board loop of CAN0 to CAN, the switch SW can be closed. This table - shows the signal mapping of the two SUB connectors: Table - SUB Connector CN CN CAN Interface CAN0 CAN Pin Number Function CANL - CANH Others - CANL - CANH Others -. FlexRay Interface Two FlexRay interfaces (FLEX0, FLEX), with FlexRay signal level, are provided on the board. To connect the FlexRay signals of the device available on CN (Piggyboard device connector) to the FlexRay interfaces, close SW for FLEX0 and SW for FLEX. In case different device signals shall be connected to the interface, the headers CN (for FLEX0) and CN (for FLEX) can be used. Connect a small wire between the related signals of the device on the PiggyBoard and the FlexRay drivers. R0UT0E00 Rev.. 0-0-
RH0/Xx To supply the IO voltage for the CAN drivers (TJA00ATS), the pin header CN (for FLEX0) and CN (for FLEX) must be closed. Several pin headers are provided to configure the inputs of the CAN driver (TJA00ATS). For details refer to the schematic and the reference documentation of the FlexRay driver. To enable an on-board loop of FLEX0 to FLEX, the switch SW can be closed. This table - shows the signal mapping of the two SUB connectors: Table - SUB Connector CN CN CAN Interface FLEX0 FLEX Pin Number Function FLEX0_BM FLEX_BM FLEX0_BP FLEX_BP Others - FLEX_BM FLEX_BP Others -. Ethernet Interface One Ethernet interface, with Ethernet signal level, is provided on the board. To connect the Ethernet signals of the device available on CN (Piggyboard device connector), to the Ethernet interface, close SW and SW. To enable the.v power for operation of the Ethernet Phy (LAN00), close the header CN. Note: The ports of the device on the PiggyBack board that hold the Ethernet signals must also be configured for.v operation. Check the UM of the PiggyBack board for details. The RJ connector CN0 is used for connection of the Ethernet cable. For available signals on the RJ connector, refer to the related chapter of the schematic.. PSI Interface For connection of line drivers for the PSI interface, the headers CN and CN0 are available. The headers connect to the following signals on the PiggyBoard connector CN: Table - Header PSI Interface Pin Number Function Signal on CN PSI_0_Rx PSI0Rx CN 0 PSI_0_Tx PSI0Tx PSI_0_SYNC PSI0Sync GN - CN0 PSI Rx PSIRx R0UT0E00 Rev.. 0-0-
RH0/Xx Header PSI Interface Pin Number Function Signal on CN PSI Tx PSITx PSI SYNC PSISync GN -. SENT Interface For connection of sensors with a SENT interface, two line drivers implementation are provided. To connect the SENT signals of the device, available on CN (Piggyboard device connector), to the SENT interfaces, close SW (for SENT0) and SW (for SENT). To connect sensors to the line drivers, the connectors CN and CN can be used. To supply the IO voltage for the SENT drivers the pin header CN (for SENT0) and CN (for SENT) must be closed. In case different device signals shall be connected to the interface the headers CN (for SENT0) and CN (for SENT) can be used. Connect a small wire between the related signals of the device on the PiggyBoard and the SENT drivers. This table - shows the signal mapping of the two SENT connectors: Table - Header SENT Interface CN 0 CN Pin Number Function SENT0RxTx GN SENTRxTx GN. igital IOs Up to device signals with digital IO functionality are available on connector CN. Table - Header Pin Number Signal on CN CN IGIO_0 IGIO_ IGIO_ IGIO_ IGIO_ IGIO_ IGIO_ IGIO_ IGIO_ 0 IGIO_ IGIO_0 R0UT0E00 Rev.. 0-0-
RH0/Xx Header Pin Number Signal on CN IGIO_ IGIO_ IGIO_ IGIO_ IGIO_. Push Buttons To trigger user actions as device interrupts, three push button are available. The push buttons can trigger the following interrupts: - SW: Triggers NMI - SW: Triggers T0 - SW: Triggers T To connect the interrupt signals of the device available on CN (Piggyboard device connector) to the push buttons, close SW0. To supply the IO voltage for the push buttons, the pin header CN must be closed. In case different device signals shall be connected to the push buttons, the headers CN can be used. Connect a small wire between the related signals of the device on the PiggyBoard and the push buttons drivers. Table - Push button efault signal on CN Switch to enable the default connection Header for alternative connection SW NMI SW0. CN. SW T0 SW0. CN. SW T SW0. CN..0 Analog measurements In order to perform some sample measurement with the PiggyBack board device Analog/igital Converter, three potentiometers are provided. Additionally a multiplexer device for analog signals (HC0 type) is provided on the board as IC. To supply the IO voltage for the potentiometers and the multiplexer, the pin header CN must be closed. To connect the analog signals of the device available at CN (Piggyboard device connector) to the potentiometers and the multiplexer, close the related pin headers on CN (see table -0). The address select input pins of the multiplexer are controller by the MUX0- MUX signals available on CN. To connect the multiplexer inputs to those signals, close SW. In case different signals than those available on CN shall be used to control the multiplexer address select inputs, the pin header CN is available To connect the interrupt signals of the device available on CN to the push buttons close SW0. R0UT0E00 Rev.. 0 0-0-
RH0/Xx Table - Multiplexer analog input Pin header for signal connection Connected Potentiometer 0 CN. R CN.0 R CN. - CN. - CN. - CN. - CN. - CN. - Table -0 CN Signal CN signal - AC0 - AC - AC - AC - AC - AC R0 AC Multiplexer output AC. Signal LEs Four LEs, LE to LE0, are provided to allow visual observation of microcontroller output port states. The power supply of the LEs is derived directly from the primary board supply voltage (typical V). To connect the signals of the device available at CN (Piggyboard device connector) to the LEs, close the switches on SW (see table below). In case different device signals shall be connected to the signal LEs, the headers CN can be used. Connect a small wire between the related signals of the device on the PiggyBoard and the signal LEs. See the table below for details. Table - LE Switch SW Alternative signal connection CN signal LE0 - CN. IGIO_0 LE - CN. IGIO_ LE - CN. IGIO_ LE - CN. IGIO_. LC Interface An -characters x -lines display is provided with the MainBoard. The display must be placed on the connectors of IC. R0UT0E00 Rev.. 0-0-
RH0/Xx Control of the display is provided by means of digital IO signals available on CN. To connect the signals of the device available at CN (Piggyboard device connector) to the isplay, close the switches on SW and SW. In case different device signals shall be connected to the LC display, the headers CN can be used, for small wire connections. The contrast of the display can be adjusted manually using the potentiometer R. R0UT0E00 Rev.. 0-0-
RH0/Xx Chapter Precautions. LC Interface escription: When a display is placed on the connector of IC, it might not be possible to connect to the device on a mounted PiggyBoard using the PG-FP or E. Applicable products: The above mentioned description is applicable to the products with the following board revision(s) / serial number(s): Board revisions: EESS-00-0-0 EESS-00-0-0 Serial numbers: CA000 to CA0000 CA000 CA0Y00 to CA0Y00 CA0Y000 to CA0Y00 CA0Y00 to CA0Y00 CA00 to CA000 Applicable workaround / solutions: ) Either do not mount the display onto the connector IC ) Or connect a pull-down resistor of.kω between the pin # and # of the connector IC. The red circle in the picture highlights the applied modification. Ethernet Interface escription: The Ethernet Interface cannot be used due to missing 0Ω pull-up resistors to.v on the following signal lines of IC (LAN00): TXN (pin ) TXP (pin ) RXN (pin ) RXP (pin ) R0UT0E00 Rev.. 0-0-
RH0/Xx Applicable products: The above mentioned description is applicable to the products with the following board revision(s): Board revisions: EESS-00-0-0 EESS-00-0-0 Applicable workaround / solutions: The picture below shows the required modifications: The four missing resistors are soldered on the bottom side of the PCB directly to the related pins of the Ethernet connector and are wired to.v voltage close-by.. CAN interfaces escription: The CAN connectors CN (CAN0) and CN (CAN) do not provide the specified signal layout as shown in chapter.. Instead, the signals of CANL and CANH are switched: CANL is located on pin instead of pin CANH is located on pin instead of pin Applicable products: The above mentioned description is applicable to the products with the following board revision(s) and/or serial number(s): Board revision: EESS-00-0-0 Serial numbers: CA00 to CA00 Applicable workaround / solutions:. Please contact your board supplier for a repair / replacement. European customers can use the following link: http://www.renesas.eu/support_all/registrations/hardware_upgrade/. Exchange the female SUB connectors (CN and CN) to male SUB connectors.. Use a modified cable that exchanges the signals CANL and CANH to compensate the signal switch. R0UT0E00 Rev.. 0-0-
RH0/Xx Chapter Revision History The table provides information about the major changes of the document versions. ate Version escription 0-0-.0 Initial release 0-0-. Added chapter Precautions 0-0-0. 0-0-. Added serial number information in chapter. Precautions Added IOV to CN Added precaution for the Ethernet interface in chapter. Updated schematics Updated: Chapter Precautions Added precaution for CAN interfaces (chapter.) 0--. Add information about voltage configurations in chapters.. and. 0-0-0. Update schematics (formatting changes only) 0-0-. Added TJA0T as mounted driver for the L interface. Added Note in chapter. 0-0-. Corrected UART signal assignment in Table - R0UT0E00 Rev.. 0-0-
RH0/Xx Chapter Appendix A: PiggyBoard connector CN Pin Function Pin Function VA VA VA VA RESET NMI WAKE - T0 0 T T T - - UART0TX UARTTX UART0RX UARTRX L0TX 0 LTX L0RX LRX IIC0SL IICSL IIC0SA IICSA CAN0TX CANTX CAN0RX 0 CANRX SENT0 SENT SENT0 SENT PSI0Rx PSIRx PSI0Tx PSITx PSI0Snyc 0 PSISync FLX0TX FLX0EN FLX0RX - FLXTX FXEN FLXRX FLX reserved - 0 - ETH0MIO ETH0MC ETH0RX0 EH0TX0 ETH0RX EH0TX ETH0RX EH0TX ETH0RX 0 EH0TX ETH0RXCLK ETH0TXCLK ETH0RXER ETH0TXER ETH0CRSV ETH0TXEN ETH0RXV ETH0COL ETH0RESET 0 - - - USB0UMF USB0UMH USB0UPF USB0UPH - - - 0 - - - R0UT0E00 Rev.. 0-0-
RH0/Xx - - IGIO_0 IGIO_ IGIO_ IGIO_ IGIO_ 0 IGIO_ IGIO_ IGIO_ IGIO_ IGIO_ IGIO_0 IGIO_ IGIO_ IGIO_ IGIO_ 00 IGIO_ 0-0 - 0 MUX0 0 MUX 0 MUX 0-0 AC0 0 AC 0 AC 0 AC AC AC AC AC IOV IOV VB VB VB 0 VB R0UT0E00 Rev.. 0-0-
RH0/Xx Chapter Appendix B: PiggyBoard connector CN Pin Function Pin Function CANTx CANTx CANRx CANRx CANTx CANTx CANRx CANRx LTx 0 LTx LRx LRx LTx LTx LRx LRx LTx LTx LRx 0 LRx LTx LTx LRx LRx L0Tx LTx L0Rx LRx LTx 0 LTx LRx LRx LTx LTx LRx LRx - - - 0 - MLBCLK MLBRESET MLBSIG MLBAT - - - - - 0 - - - - - - - - - - 0 - - - - - - - - - - 0 - - - - - - - - - - 0 - - - R0UT0E00 Rev.. 0-0-
RH0/Xx - - - - - - - 0 - - - - - - - - - - 00-0 - 0-0 - 0-0 - 0-0 - 0-0 - 0 - - - - - - - - - - 0 - R0UT0E00 Rev.. 0-0-
RH0/Xx Chapter Appendix C: PiggyBoard connector CN Pin Function Pin Function PWM00 PWM0 PWM0 PWM0 PWM0 PWM0 PWM0 PWM0 PWM0 0 PWM0 PWM0 PWM PWM PWM PWM PWM PWM PWM PWM 0 PWM PWM0 PWM PWM PWM PWM PWM PWM PWM PWM 0 PWM PWM0 PWM PWM PWM PWM PWM PWM PWM PWM 0 PWM PWM0 PWM PWM PWM PWM PWM PWM PWM PWM 0 PWM PWM0 PWM PWM PWM PWM PWM PWM PWM PWM 0 PWM PWM0 PWM PWM PWM PWM PWM PWM PWM PWM 0 PWM PWM0 PWM PWM PWM PWM PWM PWM PWM PWM 0 PWM PWMAC00 PWMAC0 R0UT0E00 Rev.. 0 0-0-
RH0/Xx PWMAC0 PWMAC0 PWMAC0 PWMAC0 PWMAC0 PWMAC0 PWMAC0 0 PWMAC0 PWMAC0 PWMAC PWMAC PWMAC PWMAC PWMAC - - - 00-0 - 0-0 - 0-0 - 0-0 - 0-0 - 0 - - - - - - - - - - 0 - R0UT0E00 Rev.. 0-0-
RH0/Xx R E V R A W N B Y A T E C O MM E N T M. Rafenne K.Hesse /0/0 0/0/0 0/0/0.00 Release.00 Add R,R,R,R,R,R TERFACES Chapter Appendix : Schematic R, R, R, R0, R, R, R, R KOHM STEA OF 0OHM,.00 /0/0 CONNECT VBAT P AT TJA0 TO VCC P STEA OF V NET, RUBBE R FEET.0 A A UART TERFACES CAN TERFACES VIOF_UART VIOF C 00N HEAER WAY CN CAN*0* VIOF VIOF_CAN_0 MAX IC SHN EN HEAER WAY CN UART*0* 0 SUB_M_THT CN B VCC B NC[..0] C 00N CPLUS CMUS C 00N C 00N HEAER WAY CN VPLUS.0V VIOF_CAN_0 VIOF_CAN_0 C0 00N VMUS CPLUS CMUS HEAER WAY CN T_RS T_RS T_TTL T_TTL IP-SWITCH-POL-SM UART0TX SW UART0RX R_TTL R_RS 0 R_TTL R_RS 0 GN GN GN R HEAER WAY CN R 0K 0K TJA0AT IC TX0 STB_Z GN CANH VCC CANL RX0 SPLIT VIO VBAT 0 EN WAKE H ERR_Z TP SM-TESTPOI NT HEAER WAY CN HEAER WAY CN0 SUB_M_THT CN IP-SWITCH-POL-SM SW CAN0TX CAN0RX HEAER WAY CN IP-SWITCH-POL-SM SW UARTTX UARTRX TP C C C SW IP-SWITCH-POL-SM SM-TESTPOI NT C 00N C 00N 0 GN GN 00N CAN** R VIOF VIOF_CAN_.0V UART** SW IP-SWITCH-POL-SM 0 VIOF_CAN_ HEAER WAY CN VIOF_CAN_ SUB_M_THT CN HEAER WAY CN0 R0UT0E00 Rev.. 0-0- SW0 IP-SWITCH-POL-SM HEAER WAY CN TJA0AT IC HEAER WAY TX0 STB_Z CN GN CANH VCC CANL RX0 SPLIT 0 HEAER WAY VIO VBAT EN WAKE CN TP H ERR_Z TP SM-TESTPOI NT SM-TESTPOI NT C 0 GN GN SUB_M_THT CN IP-SWITCH-POL-SM SW CANTX CANRX IP-SWITCH-POL-SM SW C R 00N 00N C 0 0 GN GN 00N E E F F Electronics Europe GmbH RH0-XX-MB-T-V T itle S ize ocum en t Num be r A EESS-000-0-0 a te : Wed Feb 0 0:: 0 PAGE OF.00
RH0/Xx TERFACES SW FLEX*0* FLEX** L TERFACES L*0* L** FLEXRAY TEFRACE C C C C C + C 0 C + C Title RH0-XX-MB-T-V Electronics Europe GmbH Size A ocument Number EESS-000-0-0 ate: Feb 0 0 : : 0 PAGE Wed OF.00 A B C E F A B C HEAER WAY CN 0 HEAER WAY CN HEAER WAY CN HEAER WAY CN HEAER WAY CN HEAER WAY CN IP-SWITCH-POL-SM SW HEAER WAY CN HEAER WAY CN HEAER WAY CN HEAER WAY CN R R 0 C N W-V 00 N TR.0N R SK0 C C R 00 N 00 N R R SUB_ M_THT C CN R E F IP-SWITCH -POL-SM SW SM-TESTPOT TP TP IP-SWITCH-POL-SM SM-TESTPOT FLX0TX SW FLX0EN FLX0RX SM-TESTPOT TP0 TP IP-SWITCH-POL-SM SM-TESTPOT FLXTX SW FLXEN FLXR X VBA TF VBA T_L_0.0V VIOF_L_0 VIOF R HEAER WAY CN HEAER WAY VIOF_FLX_ CN RX TX NSLP L R NWAKE BAT H GN TP SM-TESTPOT 0 C 0 VIOF VBA TF VIOF_L_.0V VBA T_L_ HEAER WAY R CN 0 N W-V 00 N TJA00 T/TJA0T IC HEAER WAY CN RX TX NSLP L R NWAKE BAT H GN TP SM-TESTPOT C TR SK0 ACTR -0 -P-TL0 TP TP SM-TESTPOT SM-TESTPOT 0 TP TP SM-TESTPOT SM-TESTPOT 0 IP-SWITCH-POL-SM SW IP-SWITCH -POL-SM SW HEAER 0 WAY CN FLXRESE RVE 0 0 IGIO_ 0 0 IGIO_ IGIO_ IGIO_ RESET UART0R X UART0TX 0 0 0 0 VIOF_FLX_0 HEAER WAY CN TJA00 ATS//T IC H VBUF 0 H VCC EN BP VIO BM TX GN TXEN WAKE RX VBAT BGE ERR N STBN RXEN 0 TRX TRX0 HEAER WAY CN IP-SWITCH-POL-SM SW0 IP-SWITCH-POL-SM SW HEAER WAY CN R TJA00 T/TJA0T IC SUB_ M_THT CN TJA00 ATS//T IC H VBUF 0 H VCC EN BP VIO BM TX GN TXEN WAKE RX VBAT BGE ERR N STBN RXEN 0 TRX TRX0 HEAER WAY CN IP-SWITCH-POL-SM SW IP-SWITCH-POL-SM SW 0 GN GN FIL SUB_ F_THT CN R R C.N FIL SUB_ F_THT CN R R 0 C K0 0 K 0 K 0 IP-SWITCH-POL-SM IGIO_ IGIO_ IGIO_ IGIO<0.. > IGIO_ VB_TEST VA_TEST VBA TF_TEST.V HEAER WAY.V V V.0V CN HEAER WAY VBA TF CN V HEAER WAY CN VIOF VIOF_FLX_0 VIOF VIOF_FLX_.0V L TX LR X UARTTX UARTRX VIOF_FLX_0VIOF_FLX_ VBA TF.0V V VBA TF V 00 N 0 U 00 N 0 U 00 N 0 U 00 N 0 U 0 0 K 0 K 0 K 0 0K K0 OU T L0 TX L0R X UART0TX UART0RX GN GN.0N GN GN ACTR -0 -P-TL0 GN GN.N VBA TF VBA TF.0V.0V V V G G S S 0 R0UT0E00 Rev.. 0-0-
RH0/Xx R0UT0E00 Rev.. 0-0- Size ocument Number A Title ate: A B C E F A B C E F TERFACES ETHERNET TERFACE Wed Feb 0 ::0 0 PAGE OF.00 EESS-000-0-0 RH0-XX-MB-T-V Electronics Europe GmbH 0 N.A. 0K R R R IP-SWITCH-0POL-SM ETH0MIO N.A. K 0K R R R R R R CN FC FC R C C C C C C0 C R C 0 0 SW C C X R 0 CN0 R R R R R0 R LE LE 0 0 0 IC 0 SW C YELLOW 00 00N ETH0COL ETH0MC 00N 0K ETH0TXEN ETH0RESET.V 00N.V 0K 0K ETH0TXCLK ETH0TX ETH0TX ETH0TXER K IP-SWITCH-0POL-SM.V ETH0TX 00N 0K 0 0.000 MHZ PF P P M0 YELLOW 00 00N...U. LAN00 00N VCC_ETH VCC_ETHF NFMPCBA HEAER WAY. RJ_J00BNL 00N NFMPCBA 00N.V VCC_ETHF_C ETH0RX ETH0RX ETH0RX0 ETH0CRSV ETH0RXER ETH0RXV ETH0RXCLK ETH0RX ETH0TX0 NC GN_H GN_H YE_KA YE_AN GR_KA GR_AN GN RMUS CT_R RPLUS TMUS CT_T TPLUS VSS COL_RMII_CRSV VA_ EXRES VA_ RXP RXN VA_ TXP TXN TX TX VIO TX TX0 TXCLK RXER_RX RXCLK_REGOFF RXV RX0_MOE0 RX_MOE RX_MOE RX_NTSEL CLK_XTAL XTAL FUPLEX_PHYA ACTIVITY_PHYA LK_PHYA SPEE00_PHYA0 V_CORE V TXEN NRST MIO CRS_PHYA MC NT_TXER_TX IO
RH0/Xx R0UT0E00 Rev.. 0-0- Size ocument Number A Title ate: A B C E F A B C E F MA BOAR CONNECTORS CONNECTOR CONNECTOR CONNECTOR CONNECTOR Wed Feb 0 0:: 0 PAGE OF.00 EESS-000-0-0 RH0-XX-MB-T-V Electronics Europe GmbH 0 0 0 0 0 0 0 0 0 0 0 00 0 0 0 0 0 0 0 0 0 CN 0 0 0 0 0 0 0 0 0 0 0 00 0 0 0 0 0 0 0 0 0 CN 0 0 0 0 0 0 0 0 0 0 0 00 0 0 0 0 0 0 0 0 0 CN 0 0 0 0 0 0 0 0 0 0 0 00 0 0 0 0 0 0 0 0 0 CN 0 QTH-00-0-F--A QSH-00-0-F--A MLBRESET LRX LTX CANTX MLBAT LRX LTX LRX LTX LRX LTX LTX LRX LTX LRX LRX LTX CANRX MLBSIG MLBCLK LRX LTX LRX LTX L0RX L0TX LRX LTX LRX LTX LRX LTX LRX LTX CANRX CANTX CANRX CANTX CANRX CANTX QSH-00-0-F--A PWMAC<00..> PWMAC<00..>.V.V/OR V AC<0..> 0 VIOF VIOF.V/OR V.V AC<0..> 0 PWM<00..>.0V IGIO<0..>.0V IGIO<0..> 0 0 0 PWM<00..> 0 0 0 0 0 0 0 QTH-00-0-F--A USB0UPH ETH0TXCLK ETH0TX FLXRESERVE CANTX SENT IICSA LRX LTX PSITX SENT RESET WAKE T0 T UART0TX UART0RX L0TX L0RX IIC0SCL IIC0SA CAN0TX CAN0RX SENT0 SENT0 PSI0RX PSI0TX PSI0SYNC FLX0TX FLX0RX FLXTX FLXRX ETH0MIO ETH0RX0 ETH0RX ETH0RX ETH0RX ETH0RXCLK ETH0RXER ETH0CRSV ETH0RXV ETH0RESET USB0UMF USB0UPF NMI T T UARTTX UARTRX IICSCL CANRX PSIRX PSISYNC FLX0EN FLXEN ETH0MC ETH0TX0 ETH0TX ETH0TX ETH0TXER ETH0TXEN ETH0COL USB0UMH MUX0 MUX MUX AC0 AC AC AC AC AC AC AC 0 0 0 0 0 0 0 0 0 0 0 00 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 00 0 0 0 0 0 0 0 0 0 IO IO 0 0 0 0 0 0 0 0 0 0 0 00 0 0 0 0 0 0 0 0 0 IO 0 0 0 0 0 0 0 0 0 0 0 00 0 0 0 0 0 0 0 0 0
A B C E F SM-TESTPOT TP TP0 POWER LES TP TP SM-TESTPOT SM-TESTPOT C C/C REGULATORS.V/V POWER SUPPLY / POWER LE'S /SIGNAL LE'S C LE R R R TR TR TR SK0 SK0 SK0 S S NBS000P0S IC V V SEQ TRIM NBS000P0S IC0 V V SEQ TRIM LE R R R R LE NFMPCBA FC NFMPCBA FC C LE 00U R0 C 00U TP TESTPOT_SMALL_R TP TESTPOT_SMALL_R SIGNAL LES SW R TR SK0 R TR SK0 ALLOWE C SUPPLY.V TO V KL-SMT-00-A CN TEXAS POWER CN0 ALLOWE C SUPPLY.V TO V ST POWER LAB SOCKET MM RE CN ST POWER LAB SOCKET MM BLACK CN CN LE LE LE LE0 R TR SK0 PROTECTION REVERSE VOLTAGE R R TR SK0 NW-V R NW-V C Title TP TESTPOT_SMALL_R TP GN-TESTPOT RH0-XX-MB-T-V A EESS-000-0-0 ate: Wed Feb 0 0:: 0 PAGE OF.00 Electronics Europe GmbH A B C E F RH0/Xx TR0 SK0 TR SJ HEAER WAY 0-000 SM-TESTPOT VBATF V + U.V VBATF V + U G VBATF V BLUE ON* S ON*.0V G VBATF VIOF VBATF V.V V BLUE G BLUE VBATF V BLUE.V.0V IO 0 IGIO<0..> IP-SWITCH-POL-SM G BLUE BLUE BLUE BLUE S G S CNTR CNTR SWITCH ER VCC GN G S G V S VBATF V VBATF V + THT 0U GN K0 GN K K0 K K K K0 K0 K0 K0 K0 0K K0 G S 0K G S R0UT0E00 Rev.. 0-0-
RH0/Xx CN HEAER WAY PUSH BUTTON FOR TERRUPT LC TERFACE A A VIOF V_PUSH PSI TERFACE HEAER WAY CN HEAER WAY CN IO IGIO<0..> CN IC AZ_ISPLAY_ACM_00C R_W BLPLUS E BLMUS RS HEAER WAY IP-SWITCH-0POL-SM SW 0 0 R R0 R 0K 0K 0K IP-SWITCH-POL-SM SW0 0 0 [0] NMI T0 T HEAER WAY CN PSI0RX PSI0TX PSI0SYNC [] [] [].0V [] C. [] C SW 00N [] C * SW SW SW 00N [] * 00N IP-SWITCH-POL-SM * V V R 0K B B R HEAER WAY CN0 PSIRX PSITX PSISYNC K PUSH BUTTON P SM PUSH BUTTON P SM PUSH BUTTON P SM VSS SENT TERFACE IGITAL I/O'S VIOF V_SENT_ IGIO<0..> IGIO<0..> VIOF V_SENT_0 HEAER WAY CN 0 0 IO HEAER WAY HEAER WAY CN CN HEAER WAY HEAER WAY CN CN R R IO 0 0 C C A/ MEASUREMENTS 0K 0K IP-SWITCH-POL-SM SENT SW SENT IP-SWITCH-POL-SM SENT0 SW SENT0 HEAER WAY CN HEAER WAY CN -00000 SM VIOF V_AC -00000 SM G G TR SK0 R0UT0E00 Rev.. 0-0- TR SK0 S S HEAER WAY CN HEAER WAY CN 0 0 0 R R 0 0 R 00 00 AC<0..> AC<0..> 00 CHC0PWR IC A[] VCC A[] A[] A_COM A[] A[] A[0] A[] A[] E S[0] VEE S[] 0 GN S[] R0 0K AC_ AMUX<0..> AMUX<0..> R 0K AC_ C IP-SWITCH-POL-SM SW MUX0 MUX MUX R 0K C 00N IP-SWITCH-POL-SM SW 00N C0 AC_ AC_ 00N AC<0..> THT TP GN-TESTPOT TP RRR FIUCIAL_MM TP GN-TESTPOT TP FIUCIAL_MM TP GN-TESTPOT TP TP0 FIUCIAL_MM GN-TESTPOT RUBBER FOOT =.MM/H=MM GREY TP MP TP GN-TESTPOT FIUCIAL_MM TP GN-TESTPOT RUBBER FOOT =.MM/H=MM GREY MP TP GN-TESTPOT TP GN-TESTPOT RUBBER FOOT =.MM/H=MM GREY MP TP0 GN-TESTPOT HEAER WAY CN 0K 0K 0K E E TP GN-TESTPOT RUBBER FOOT =.MM/H=MM GREY MP RUBBER FOOT =.MM/H=MM GREY MP RUBBER FOOT =.MM/H=MM GREY MP RUBBER FOOT =.MM/H=MM GREY MP F F Electronics Europe GmbH RH0-XX-MB-T-V Title A EESS-000-0-0 ate: Wed Feb 0 0::0 0 PAGE OF.00
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