HMI Expansion board R0K50564MB001BR User`s Manual
Contents
1. Connector PDC 1 2 3 5 5 lt gt PCKO 4 7 8 PIXCLK 4 PDC_VSYNC 4 PDC_HSYNC 4 PIXD7 4 PIXD6 4 PIXD5 4 PIXD4 4 PIXD3 4 PIXD2 4 18 PIXD1 4 19 PIXDO 4 20 PDC SDA 4 PDC SCL 4 HKP 20M2 Connector SSI 1 H 3 mx L4 5 2 lt gt AUDIOCLK 121 T 8 H 10 SSISCKO 2 11 SSIRXDO 2 12 SSIWSO 2 SSITXDO 2 HKP 12M2 GND Connector J12 XG8S 0331 VSS CHANGE Renesas Solutions Corp ROK50564MBO01BR SCALE CHECKED DRAWN DESIGNED APPROVED Host Interface Connectors 5 5 DATE D ROK50564MB001BR_C 14 09 07 REVISION HISTORY HMI Expansion Board ROK50564MB001BR User s Manual Description Summary Dec 10 2014 First edition Jan 16 2015 Unified the designation of RSK board to RSK for RX64M CPU board HMI Expansion Board ROK50564MB001BR User s Manual Publication Date Jan 16 2015 Rev 1 01 Published by Renesas Electronics Corporation LENESAS SALES OFFICES Renesas Electronics Corporation http www renesas com Refer to http Awww renesas com for the latest and detailed information Renesas Electronics America Inc 2801 Scott Boulevard Santa Clara CA 95050 2549 U S A Tel 1 408 588 6000 Fax 1 408 588 6130 Renesas Electronics Canada Limited 1101 Nicholson Road2. Table 3 30 Settings for RSK for RX64M CPU Board when Sound I O Interface Used Type Part No Setting and limitation Notes Resistor R100 R115 R268 R269 Remove 00 resistor On the RSK for RX64M CPU Board P17 is R317 R330 R481 R518 used for the serial EEPROM control signal and R99 R114 R285 R286 Mount 0Q resistor P20 P21 and P22 are used for the USB control R287 R288 R289 R476 signal Also the SSI related signal is multiplexed with the PCD related signal Therefore it is not possible to concurrently use the sound I O interface while the said signals are used on the RSK for RX64M CPU Board Table 3 31 Settings for RSK for RX64M CPU Board when 7 Segment LEDs Used Type Part No Setting and limitation Notes Resistor R387 R433 R464 Remove 00 resistor P61 P64 and P65 are used for the SDRAM R348 R404 R429 R445 Mount 0Q resistor control signal on the RSK for RX64M CPU Board It is not possible to concurrently use the 7 seg LEDs while the said signal is used on the RSK for RX64M CPU Board Table 3 32 Settings for RSK for RX64M CPU Board when User LEDs Used Type Part No Setting and limitation Notes Resistor R409 Remove 00 resistor LED1 P93 On the RSK for RX64M CPU Board P10 and R187 Mount 0 resistor LED1 P93 P11 are used for the USB control signal and R351 Remove 02 resistor LED2 P10 P91 and P93 are used for the Ethernet control R83 Mount 09 resistor LED2 P10 signal It i
3. Motor connector J7 JA5 i 1 1 A 2 phase stepping motor I 2 2kQ uriooza MIRA AMA B NE l 2 De I e l 2 2k0 mriocza 22 MIB MA oe 3 Lu o l l n 4 1B urioozo MIRE MAN e Ae VVV ha K 5 DC 6 IB 2 2k0 1 Bid jq Uu po 0 wrioczp MIRE AAA E hi ta po I Connected to the l outside of the board o o o VSS Figure2 3 Motor Control Interface Block Diagram R20UT3056EJ0101 Rev 1 01 TENESAS 2 4 Jan 16 2015 HMI expansion board ROK50564MB001BR 2 5 Camera Interface 2 Functional Specifications The ROK50564MB001BR includes the interface to connect a camera for 8 bit parallel data output and the camera connector J9 OV7670 camera module is expected to be connected and the power supply for camera drive 2 75V is generated by using the regulator from SVCC power supply RX64M SCI6 in simplified I2C mode is used to control the camera module and PDC is used for data input However different voltages are used so a bus switch is inserted as a level shifter between them Figure2 4 shows the Camera Interface Block Diagram on ROK50564MBO00I BR PDC SCL SDA PCKO VSYNC HSYNC PIXCLK PIXD7 PIXD6 PIXD5 PIXD4 PIXD3 PIXD2 PIXD1 PIXDO SVCC LT1117 VIN VOUT 2_7VCC e Output voltage of LT1117 can be calculated by using the following formula VOUT 1 25V 1 R2 R1 1 25 1 147 121
4. Default setting 3 2 1 2 Motor Power Supply Select Jumper JP4 JP4 selects whether or not the motor drive power supply should be supplied from the application header JA1 or from the external power supply connector J8 Pin 1 and 2 should be connected when the power is supplied from the external power supply connector J8 and pin 2 and 3 should be connected when the power is supplied from the application header JA1 Table 3 21 lists the Settings for Motor Power Supply Select Jumper JP4 Table 3 21 Settings for Motor Power Supply Select Jumper JP4 No Setting Function JP4 1 2 short Supplies power from the external power supply connector J3 2 3 short Supplies power from the application header JA1 Note Default setting R20UT3056EJ0101 Rev 1 01 RTENESAS 3 15 Jan 16 2015 HMI expansion board ROK50564MB001BR 3 Operational Specifications 3 2 1 3 A RXD Select Jumper JP5 JP5 selects a connection destination for the A RXD signal of the RX64M SCIg Ch7 Pin 1 and 2 should be connected when connecting the A RXD signal to the touch panel interface and pin 2 and 3 should be connected when connecting the SDA7 signal to the non contact thermal sensor and the USB battery charge controller Table 3 22 lists the Settings for A RXD Select Jumper JP5 Table 3 222 Settings for A RXD Select Jumper JP5 No Setting Function JP5 1 2 short Connects the A RXD signal to the
5. CE14 1ONFI16V 10pF 16V vss avec z Ute U11D SN74CB3T3125 12 11 ce co ala CP44 0 1UF 10V SN7ACB3T3125 Ri vss vss Don t prepare the poor layer 3vcc 5VCC Sensor Interface T sr S gg 6 Kal LE JP5 2 5 8 XG8S 0331 2 xj c U10 JST 1 SMO04B GHS TB 5 P92 4 VvCCA VCCB 2 SCLA SCLB 4 SDAA SDAB 2 15 P90 4 GND EN 1 CP48 PCA9517 CP49 XG8S 0331 Ee J10 Sensor JP6 0 14F 10V 0 1HF 10V VSS 77 SCL7 SDA 7 vss Touch Panel Interface 3VCC J11 Touch Panel 1 5 RESET lt gt RI C 2 A TXD 4 A RXD 5 R108 6 5 ADCO 00 E 8 vss UNE 52271 0819 Molex USB Battery Charge Control Bel Fuse Inc OZCCO300FF2B under the fuse 15 SHDNn 15 USB_CHG 0 1uF 16V LED4 vss 7 7 SML 310VT 6 8uF 16V L4 CLF7045T 2R2N L5 CLF7045T 2R2N cp37 Vin Vout 4 7uF 16V ds 2 D9 R124 83 SHDN SWA 5 PMEG1020 TOKO Ye SWE D10 6 PMEG1020 CP38 CP39 1 SEND ER 22pem6V 14 PONDA PGNDB 1000pF 16V TGND CEM TC 3428 22uF 16V T vss 77 U16 R2A20057BX VSS Renesas L6 LQM2HPN2R2MGO TR2 SSM6J412TU1 R125 383k0 R128 121k0 TR3 SSM6J412TU 4 7uF 16V VSS 100kQ 0 1HF 10V
6. 5 SSITXDO SDTI RIN2 IN2 J3 15 SSISCKO Ecos LL 44 BICK 5 SSIWSO lt gt 77 LRCK a 20k0 Ro 12 PJRAN2X1U02X 5 AUDIOCLK lt gt m t TAMK 051 hue chy 22 L3 XG8S 0331 Li PF ME e Ed 5 vcoc E 4uF C 10V RM gt LINE OUT oe a Sa lar ES 2200 RI Fl Ss cea RI7 R1 AVCC Sa aL J4 4 3 eee E MT Ta a 2 J2 CP5 vcc ouT wv H 24 ATuFH0V GES R18 6 80 5 2 1 16 FRITT AM v Head Phone GND OE H E6 0 1HF 10V Wy 1 A SG 8002CA_12 288MHz vss 77 23 1 R19 680 MJ2335 AVSS CP6 CP7 El m lt gt 0 224F 16V 0 22uF 16V MIN Gain control VR1 3 3 ES 8 S CT 6ES10KQ 2 Wee COPAL CP8 D 33 49 C 7 BTT MON 4 0 1pF 10V lt gt BTT TEMP 141 vss NZ avss 3vcc nlo 5S ejo 15 MMC DI7 0 222 33 dg U3 1 gig U2 als 3vcc SN74CB3Q3245 T Texas Instruments 18 R32 4 4 220 U3 2 eMMC m edo a 17 R33 WN 220 o la CIO R34 220 CP50 a 1pF16V prii 15 R37 V220 fe FEM e 14 RIS 220 PENOS CE16 A wie pe IS RS W220 AT Eo B7 BSB een 4 i R39 220 AB h o B8 vo 1 B 20 CP9 prev gus LO Fov F x END E ae CP10 0 1HF 10V vss 5 MMC_CMD lt gt R40 A220 o vss 77 5 MMC_CLK lt gt BU pp 720 One SN74CB3Q3125 5 MMC RESn lt gt R43 a Ze vss 1 5 MMC CD avcc 3vcc SN74CB3Q3125 9 x u4E i amp SN74CB303125 r4 CP11 JP7 g 0 1HF 10V d XG8S 0231 1 2 VSS VSS CHANGE Renesas Solutions Corp DRAWN CHI ECKED DESIGN
7. J9 Suitable setting Setting is changed according to the power supply or change charge evaluation Other D2 Change to 02 resistor It s recommended to change for 0O register to cancel a voltage drop at VBUS input R20UT3056EJ0101 Rev 1 01 31 N SAS 3 22 Jan 16 2015 HMI expansion board ROK50564MB001BR 3 Operational Specifications Table 3 37 Settings for RSK for RX64M CPU Board when Touch Panel Interface Used Type Part No Setting and limitation Notes Resistor R141 R165 Unmount 00 resistor P90 and P92 are used for the Ethernet control signal on Jumper J16 J18 2 3 pin Short the RSK for RX64M CPU Board It is not possible to concurrently use the touch panel interface while the said single is used on the RSK for RX64M CPU Board This signal is also used for the non contact thermal sensor and the USB battery charge controller These functions are disabled while the said signal is used Others RV1 Set wiper terminal voltage as about 1 5V Table 3 38 lists the limitations for the RSK for RX64M CPU Board which must be followed when connecting to the ROK50564MBOO1BR Table 3 38 Limitations for RSK for RX64M CPU Board when ROK50564MB001BR Connected Type Part No Limitation Remarks Memory U13 SDRAM disabled When 7 seg LEDs and the motor are used because the same signal line is used Connector RCAN CAN connector disabled When PDC is used because the same signal line is used
8. MMCHI control signals cannot be used with the SD card slot and the external bus on the RSK for RX64M CPU Board at the same time because it is multiplexed with the SDHI control signals and the external bus signals Figure2 6 shows the eMMC Block Diagram aveo 100kQx9 JA3 Bus switch circuit tT 4 7kQ eMMC avcc AAN ANAN MN AN MMC D7 B 220x11 MMC_D6 B MMC_D5 B MMC_D4 B MC_D3 B MC_D2 B MC_D1 B MMC DO0 B MMC CLK B MMC CMD B MMC RESn B MMC CD B 0 1uF eee e EL The eMMC signals should pass through the bus switch circuit controlled by JP7 to enable all signals to be concurrently connected disconnected This bus switch uses SH74CB3Q3245 and SH74CB3Q3125 and short JP6 when the eMMC is used Figure2 6 eMMC Block Diagram R20UT3056EJ0101 Rev 1 01 LENESAS 2 7 Jan 16 2015 HMI expansion board ROK50564MB001BR 2 Functional Specifications 2 8 Touch Panel Interface The ROK50564MB001BR includes the 8 pin FFC type connector J11 to connect the R8C 3JT touch panel demonstration board TV type The RX64M ADO is used for analog input from the touch panel and the RX64M SCIg Ch is used to communicate with the R8C 3JT in UART mode The SCIg Ch7 is also connected to the non contact thermal sensor and the USB battery charge c
9. TP3 BAT TP4 BAT T TP5 BAT lt gt USB VBUSBAT BTT MON lt gt BTTI TEMP 2 2 5 CHANGE Renesas Solutions Corp SCALE DRAWN CHI ECKED DESIGNED APPROVED Camera and USB Sensor Battery Control ROK50564MBO01BR Touch Panel 4 5 DATE D ROK50564MB001BR_C 14 09 07 Application Header Host Interfac Connectors PDC 3VCC 5VCC JA1 HKP 26M2 JAS Hirose HKP 24M2 Hirose R140 14 ADCO AN 21 ADC2 00 lt gt ADCS 21 R164 _10kQ i MTR A 3 MTR B 3 vss R141 o gt RESET SSI JA2 HKP 26M2 JAB Hirose HKP 24M2 Hirose P90 4 P92 4 P91 3 P93 3 SSDA2 lt gt C gt SSCL2 2 8 BY EXT_VBUS 17 lt gt P10 3 _BLM18SG700TN1D 4 USB VBUSBAT K a ERICVA BLM18SG700TN1D 4 USB CHG lt a Ys EXT CHG BLM18SG700TN1D MMC D 7 0 2 JA3 HKP 50M2 Hirose MMC CLK m 4 USUP 7SEG com6 3 3 7SEG_com7 7SEG com8 3 3 7SEG_com9 7SEG com10 3 3 7SEG a 7SEG b 3 3 7SEG c 7SEG d 3 3 7SEG e 7SEG f 3 3 7SEG g PB7 2 2 MMC CMD 7SEG com4 3 7SEG comi 3 2 MMC CD MMC RESn 12 PCS SHDNn 14 7SEG_DP 3 7SEG com5 18 2 P51 3 7SEG_com3 7SEG_com2 3
10. 1 3 Motor Connector J7 The ROK50564MB001BR has a motor connector J7 for stepping motor connection Figure 3 4 shows the Pin Assignments for Motor Connector J7 and Table 3 13 lists the pin names for the connector Top view of component side OOOO CO UU uU O Figure 3 4 Pin Assignments for Motor Connector J7 Table 3 13 Pins for Motor Connector J7 Pin No Signal Name Pin No Signal Name 1 A 2 B 3 DC 4 DC 5 A 6 B 3 1 4 External Power Supply Connector J8 The ROK50564MB001BR has an external power supply connector J8 for motor drive Figure 3 5 shows the Pin Assignments for External Power Supply Connector J8 and Table 3 14 lists the pin names for the connector Top view of component side EEE Fela ET Figure 3 5 Pin Assignments for External Power Supply Connector J8 Table 3 14 Pins for External Power Supply Connector J8 Pin No Signal Name Pin No Signal Name 1 Ext 5VCC 2 GND R20UT3056EJ0101 Rev 1 01 TENESAS 3 9 Jan 16 2015 HMI expansion board ROK50564MB001BR 3 Operational Specifications 3 1 5 Camera Connector J9 The ROK50564MBOO1BR has a camera connector J9 to connect the 8 bit parallel data output camera Figure 3 6 shows the Pin Assignments
11. 2 768595V Camera connector VSS t e 1 5kQ 00x12 3 2 WN WN 2_7VCC 74CB3T1G125 8 ANN E 3VCC Ves 3vcc HANO MW 74CB3T3125 ANN 4 ANO ANN i 3VCC AM 9 ANN 74CB3T3245 AM IV 10 WN 1 e WN LE o AN 13 AM l AMY NAN 14 AM AA 15 e NW 16 Rx11 x eeu 930x12 DNF VSS j J9 VCC SIO C SIO O XCLK VSYNC HREF PCLK D7 D6 D5 D4 D3 D2 D1 DO GND OV7670 camera module VSS e The following process are required because the power supply on MCU 3VCC is 3 3V and the one on camera 2_7VCC is 2 75V 12C pull up is performed by using the power supply on camera 2 7VCC 74CB3Txx is inserted to the PDC related signal as a level shifter 74CB3Txx is recognized as H when VIN is about 60 of power supply voltage It outputs Vo voltage with 90 of power supply voltage when IOH is 16mA 2 54mm pitch 16Pinx2 Right angle receptacle Samtec SSW 108 02 G D RA or Hirose HIF3H 16DB 2 54DS 71 Figure2 4 R20UT3056EJ0101 Jan 16 2015 Rev 1 01 Camera Interface Block Diagram RENESAS 2 5 HMI expansion board ROK50564MB001BR 2 Functional Specifications 2 6 Non Contact Thermal Sensor The ROK50564MB001BR includes the sensor connector to connect the MEMS non contact thermal sensor OMRON D6T 44L 06 The 5VCC p
12. ETHERNETO Ethernet connector disabled When user LEDs USB battery charge ETHERNET 1 controller non contact thermal sensor and touch panel are used because the same signal line is used USBH1 USBH connector disabled When user LED2 and LED3 sound I O and USBH2 the camera are used USBH3 because the same signal line is used PMOD1 PMOD 1 connector disabled When PDC is used because the same signal line is used Potentiometer VRI Potentiometer disabled When the touch panel is used because the same signal line is used R20UT3056EJ0101 Rev 1 01 LENESAS 3 23 Jan 16 2015 HMI expansion board ROK50564MB001BR 3 Operational Specifications 3 4 Dimensions Figure 3 11 shows the ROK50564MB001BR Demensions 180 00 90 00 180 00 148 00 119 36 83 8 SSI 122 PDC 78 00 60 00 68 56 37 00 35 54 128 19 Figure 3 11 ROK50564MBOO1BR Demensions R20UT3056EJ0101 Rev 1 01 LENESAS 3 24 Jan 16 2015 RX64MHMI Expansion Board ROK50564MB001BR Appendix Appendix ROK50564MB001BR Schematics R20UT3056EJ0101 Rev 1 01 LE NESAS Appendix 1 Jan 16 2015 HMI expansion board ROK50564MBOO1BR SCHEMATICS TITLE Note INDEX s Digital GND VSS Audio Interface and eMMC n 7Seg LED user LED and Motor Control ee ESS KAS IO KISI Camera
13. Newmarket Ontario L3Y 9C3 Canada Tel 1 905 898 5441 Fax 1 905 898 3220 Renesas Electronics Europe Limited Dukes Meadow Millboard Road Bourne End Buckinghamshire SL8 5FH U K Tel 44 1628 585 100 Fax 44 1628 585 900 Renesas Electronics Europe GmbH Arcadiastrasse 10 40472 D sseldorf Germany Tel 49 211 6503 0 Fax 49 211 6503 1327 Renesas Electronics China Co Ltd Room 1709 Quantum Plaza No 27 ZhiChunLu Haidian District Beijing 100191 P R China Tel 86 10 8235 1155 Fax 86 10 8235 7679 Renesas Electronics Shanghai Co Ltd Unit 301 Tower A Central Towers 555 Langao Road Putuo District Shanghai P R China 200333 Tel 86 21 2226 0888 Fax 86 21 2226 0999 Renesas Electronics Hong Kong Limited Unit 1601 1613 16 F Tower 2 Grand Century Place 193 Prince Edward Road West Mongkok Kowloon Hong Kong Tel 852 2265 6688 Fax 852 2886 9022 9044 Renesas Electronics Taiwan Co Ltd 13F No 363 Fu Shing North Road Taipei 10543 Taiwan Tel 886 2 8175 9600 Fax 886 2 8175 9670 Renesas Electronics Singapore Pte Ltd 80 Bendemeer Road Unit 06 02 Hyflux Innovation Centre Singapore 339949 Tel 65 6213 0200 Fax 65 6213 0300 Renesas Electronics Malaysia Sdn Bhd Unit 906 Block B Menara Amcorp Amcorp Trade Centre No 18 JIn Persiaran Barat 46050 Petaling Jaya Selangor Darul Ehsan Malaysia Tel 60 3 7955 9390 Fax 60 3 7955 9510 Renesas Electronics Korea Co Ltd 12F 234
14. Operating Conditions Table 1 3 shows the Operating Conditions for the HMI expansion board Table 1 3 Operating Conditions Symbol Item Rated Value Remarks 5VCC 5V system power supply voltage 4 75V to 5 25V The value is defined on the CPU board Vss reference 3VCC 3 3V system power supply voltage 3 0V to 3 6V The value is defined on the CPU board Vss reference Board maximum consumption Up to 1 5A current Topr Operating ambient temperature 0 C to 50 C Do not expose to condensation or corrosive gases Note The ambient temperature is the air temperature immediate to the board R20UT3056EJ0101 Rev 1 01 LENESAS 1 5 Jan 16 2015 HMI expansion board ROK50564MB001BR 1 Overview R20UT3056EJO101 Rev 1 01 RENESAS 1 6 Jan 16 2015 HMI expansion board ROK50564MB001BR 2 2 1 Function Overview 2 Functional Specifications Functional Specifications Table 2 1 lists the ROK50564MBO001BR Function Modules Table 2 1 ROK50564MB001BR Function Modules Jan 16 2015 Section Function Description 2 2 Sound I O Interface Includes a sound l O interface with dual system e Asahi Kasei AK4642EN is used as AudioCodec LSI e A 12 288MHz oscillator is included as a master clock 48kHz 24kHz 16kHz 12kHz are supported for sampling rate e Stereo mini jacks for mic input and headphone output e Stereo RCA jacks for line in input and line ou
15. R2 SSISCKO BICK 1uFx2 20kQx2 ANN SSIWSO LRCK 9 AUDIOCLK 3 MCKO AVSS 29 MCKI HP OUT J2 3 ot vcoc HPL A mli JP1 ian MUTET HR 23 NW 99p ATUFx2 6 80x2 2 0 22uF x2 AVSS AUSS Oscillator 20 AVSS 12 288MHz HVSS SPP X 1002 DVSS sen HL AVSS Li AVSS VSS avec AVCC NADA i re 0 1uF 10uF e JP8 setting for sound I O pon B Set jumpers Short Open using AK4642EN Short JP8 3 4 7 8 11 12 and 15 16 Open others BLM21PG300SN1 t Set jumpers for MIC IN using ADC of RX64M Short JP8 1 2 5 6 11 12 and 15 16 Open others vis NSS Set jumpers for LINE IN using ADC of RX64M Short JP8_3 4 7 8 9 10 and 13 14 Open others e JP8 setting for ADC of RX64M Set jumpers for MIC IN using ADC of RX64M Short JP8_1 2 and 5 6 Open JP8_3 4 7 8 9 10 13 14 17 18 and 19 20 Set jumpers for LINE IN using ADC of RX64M Short JP8_9 10 and 13 14 Open JP8_1 2 5 6 11 12 15 16 17 18 and 19 20 Set jumpers for USB battery charge controller using ADC of RX64M Short JP8_17 18 and 19 20 Open JP8_1 2 5 6 9 10 and 13 14 Pull up down on JA connector signals are not included Figure 2 1 Sound I O Interface Block Diagram R20UT3056EJ0101 Rev 1 01 LENESAS 2 2 Jan 16 2015 HMI expansion board ROK50564MB001BR 2 Functional Specifications 2 3 7 Segment LEDs and User LEDs The ROK50564MBOOIBR includes ten 7 segment LEDs with a total of 18 general ports from the application header JA3 and four user LEDs with general ports
16. Sensor Interface and others M Not mounted Host Interface Connectors m Digital 5V Digital 3 3V Digital 2 75V Analog 3 3V for Audio Interface Fixed Resistors Ceramic Caps Tantalum Electrolytic Caps Decoupling Caps Induetor o Renesas Solutions Corp ROK50564MBOOI1BR INDEX D ROK50564MBOOIBR C 11 31 66 1 414 U O CHANGE Audio eMMC Interi Digital Analog Voltage Conversion 3vcc AVCC LUi mo BLM21AG121SN1 gt 2 wl ag de Lm E BLM21AG121SN1 VSS AVSS This circuit must be arranging near the power supply source race 5 ADC2 lt gt 5 ADC3 AVCC 3VCC ut 2 24F 10V 415 pvop vcom HF y LE AVDD MPWR T voo JP8 2 a oe 12C x 0 1HF 10V AK4642EN uM 8 oduFHOV 3 j ole XZAVSS 31 3 4 3 3vcc LIN1 IN1 oo ADO 5 15 6 5 CT MF OOV Mic E TD 32 oo 0 cal Hr orno 1 MJ2335 RIN1 IN1 HATO 955 15 SSCL2 104 SCL 1349 OH 5 SSDA2 ZS SDA Hho os 12 PJRAN2X1UO2X oo v 5 P51 lt gt 7 PON LI oo CSME EHON B oo RZ AA AZOKO 28 a TOU 530 LINE IN 15 SSIRXDO 123 soTO LA C4 1 HyF Crno R3
17. Table 3 8 lists the Sound I O Connectors Table 3 8 Sound I O Connectors No Connector Name Remarks J1 MIC IN stereo mini jack J2 HP OUT stereo mini jack J3 LINE IN stereo RCA jack J4 LINE OUT stereo RCA jack Figure 3 3 shows the Pin Assignments for Sound I O Connectors and Table 3 9 to Table 3 12 list the pin names for each connector Top view of component side r D gt L1 L2 J4 Ri R2 LINE OUT i I u Li L2 J3 R1 R2 LINE IN u HP OUT 3 Ji MIC IN T O Board edge Figure 3 3 Pin Assignments for Sound I O Connectors R20UT3056EJ0101 Rev 1 01 LENESAS 3 7 Jan 16 2015 HMI expansion board ROK50564MB001BR 3 Operational Specifications Table3 9 Pins for MIC IN Stereo Mini Jack J1 Pin No Signal Name Pin No Signal Name 1 RIN1 2 AVSS 3 LIN1 Table 3 10 Pins for HP OUT Stereo Mini Jack J2 Pin No Signal Name Pin No Signal Name 1 HPR 2 AVSS 3 HPL Table 3 11 Pins for LINE IN Stereo RCA Jack J3 Pin No Signal Name Pin No Signal Name R1 AVSS R2 RIN2 L1 AVSS L2 LIN2 Table 3 12 Pins for LINE OUT Stereo RCA Jack J4 Pin No Signal Name Pin No Signal Name R1 AVSS R2 ROUT L1 AVSS L2 LOUT R20UT3056EJ0101 Rev 1 01 LEN ESAS 3 8 Jan 16 2015 HMI expansion board ROK50564MB001BR 3 Operational Specifications 3
18. for Camera Connector J9 and Table 3 15 lists the pin names for the connector Top view of component side Side view 2 16 1 oocooooo0 15 Board Figure 3 6 Pin Assignments for Camera Connector J9 Table 3 15 Pins for Camera Connector J9 Pin No Signal Name Pin No Signal Name 1 VCC 2 GND 3 SIO C 4 SIO O 5 VSYNC 6 HREF 7 PCLK 8 XCLK 9 D7 10 D6 11 D5 12 D4 13 D3 14 D2 15 D1 16 DO R20UT3056EJ0101 Rev 1 01 2tEN ESAS 3 10 Jan 16 2015 HMI expansion board ROK50564MB001BR 3 Operational Specifications 3 1 6 Sensor Connector J10 The ROK50564MBO01BR has a sensor connector J10 for the MEMS non contact thermal sensor Figure 3 7 shows the Pin Assignment for Sensor Connector J10 and Table 3 16 lists the pin names for the connector Top view of component side Side view Board Figure 3 7 Pin Assignment for Sensor Connector J10 Table 3 16 Pins for Sensor Connector J10 Pin No Signal Name Pin No Signal Name 1 GND 2 VCC 3 SDA 4 SCL R20UT3056EJ0101 Rev 1 01 TENESAS 3 11 Jan 16 2015 HMI expansion board ROK50564MB001BR 3 Operational Specifications 3 1 7 Touch Panel Connector J11 The ROK50564MBO001BR has an FEC type 8 pin touch panel connector J11 to connect the R8C 3JT touch panel demonstration board TV type Fig
19. the military including but not limited to the development of weapons of mass destruction When exporting the Renesas Electronics products or technology described in this document you should comply with the applicable export control laws and regulations and follow the procedures required by such laws and regulations It is the responsibility of the buyer or distributor of Renesas Electronics products who distributes disposes of or otherwise places the product with a third party to notify such third party in advance of the contents and conditions set forth in this document Renesas Electronics assumes no responsibility for any losses incurred by you or third parties as a result of unauthorized use of Renesas Electronics products This document may not be reproduced or duplicated in any form in whole or in part without prior written consent of Renesas Electronics Please contact a Renesas Electronics sales office if you have any questions regarding the information contained in this document or Renesas Electronics products or if you have any other inquiries Note 1 Renesas Electronics as used in this document means Renesas Electronics Corporation and also includes its majority owned subsidiaries Note 2 Renesas Electronics product s means any product developed or manufactured by or for Renesas Electronics 2012 4 WEEE Directive Renesas development tools and producis are directly covered by the European Union s
20. use the camera interface while the said signals are used on the RSK for RX64M CPU Board P12 and P13 are used for the EEPROM control signal on the RSK for RX64M CPU Board so used by specifying an address Table 3 35 Settings for RSK for RX64M CPU Board when Non Contact Thermal Sensor Used Type Part No Setting and limitation Notes Resistor R141 R165 Remove 00 resistor P90 and P92 are used for the Ethernet control signal on Jumper J16 J18 2 3 pin Short the RSK for RX64M CPU Board It is not possible to concurrently use the non contact thermal sensor while the said signal is used on the RSK for RX64M CPU Board This signal is also used for the USB battery charge controller and the touch panel interface Exclusive control from the touch panel interface Table 3 36 Settings for RSK for RX64M CPU Board when USB Battery Charge Controller Used Type Part No Setting and limitation Notes Resistor R3 R141 R165 Remove 00 resistor P90 P92 PC5 and PC6 are used for the Ethernet R15 Mount 0O resistor control signal on the RSK for RX64M CPU Board It is Switch SW6 SW6 1 OFF not possible to concurrently use the USB battery charge Jumper J8 J13 2 3 pin Short controller while the said signal is used on the RSK for J16 J18 2 3 pin Short RX64M CPU Board P90 and P92 are also used for the non contact thermal sensor and the touch panel interface Exclusive control from the touch panel interface J22 1 2 pin Short Power supply from EXT BATT J1 J7
21. 00 Ar b ke L4 2 MO mi le pi C Green e Wg rS 34 g n 2 188355 He DP 7 He pr 5 6 RES E os d Com2 Com2 B MIR B Mza 28D1834T100 D3 pi avcc avcc R150 R155 155355 F no 3rd disit 8th disit ror o R54 3 AR R55 R53 B MTR C V xk gt 28D1834T100 El 7SEG_com3 lt gt Maaa G 7SEG3 B TSEG com8 lt gt Maaa 7SEG8 D4 Of Black TRE o LAP 401VD zi LAP 401VD SSM6J50TU ollo ROHM SSM6J50TU 5 ROHM 10 1 10 158355 6 D Blue Com1 a 7 3 Comi a HH i 2j NE 2 NE R56 Kr ato 3 a i 3 8 B MTRD lt gt Waa re 28018347100 i SE je T te oe ke He D P Bl 9 8 8 5 5 6 el e el e Wd Com2 wd Com2 J E E E E R151 uj R156 idi S le le S bd vss 77 4th disit 9th disit R61 E R62 LJ Bi 7SEG com lt gt oan ae 15 7SEG_com9 lt gt 23m TR o LAP 401VD TR12 o LAP 401VD Epeen avcc SSM6JSOTU Sn E a ssM6Js0TU Shae gm LEDO Com1 a ad 9 Comi T i 5 Pot R63 AN KRR A 2j pk au 9 SML 310MT A 34 E 8 Green 4 D P LED1 5 6 R64 K A T 12 Come T 5 P93 E Wa SML 310MT avcc 3vcc Green R152 R157 T LED2 aro 3 5th disit 10th disit ds Bl 7SEG com5 C FESAM 3 I5 7SEG_com10 1 85 yy SML 310MT TOKO S 7SEG5 x TOKO 7SEG10 TR8 LAP 401VD TR13 LAP 401VD Green SSM6J50TU xe ROHM a SSM6J50TU E 4 ROHM i LED3 Com1 a Com1 a R68 K A A los 2 9 5 P11 lt gt Mia f b e Af b y SML 310MT L A z 34 ke Ne D P a Ne D P E Wd Com2 La 2 wd Com2 ye u17 SN74LV541 Texa
22. 4M CPU board 7 Other connectors Figure 3 1 ROK50564MB001BR Connector Assignments R20UT3056EJO101 Rev 1 01 RENESAS 3 1 Jan 16 2015 HMI expansion board ROK50564MB001BR 3 Operational Specifications 3 1 1 RSK for RX64M CPU Board Connectors JA1 to JA3 JA5 JA6 SSI and PDC The ROK50564MB001BR has RSK connectors of the application headers JA1 to JA3 JAS and JA6 and connectors of SSI and PDC These connectors can be used by connecting with the RSK for RX64M CPU Board Figure 3 2 shows the Pin Assignments for RSK Connectors JA1 to JA3 JA5 JA6 SSI and PDC Table 3 1 to Table 3 7 list the pin names for RSK Connectors JA1 to JA3 JA5 JA6 SSI and PDC Top view of component side SSI 1 2 Figure 3 2 Pin Assignments for RSK Connectors JA1 to JA3 JA5 JA6 SSI and PDC R20UT3056EJ0101 Rev 1 01 LENESAS 3 2 Jan 16 2015 HMI expansion board ROK50564MB001BR 3 Operational Specifications Table 3 1 Pins for Application Header JA1 Pin E Pin TM No Signal Name Port Usage Destination No Signal Name Port Usage Destination 1 5V 5VCC 2 GND GND 3 3V3 3VCC 4 GND GND 5 AVCC 6 AVSS 7 AVREF 8 ADTRG 9 ADCO P40 AD input for touch panel 10 ADC1 11 ADC2 P42 Sound I O L or USB 12 ADC3 P43 Sound I O R or USB battery charge control battery charge control voltage monitor thermal monitor 13 DAO 14 DA1 15 I
23. 64M CPU board Sound I O Stepping motor Touch panel Human to R8C 3JT ha PDC camera demonstration board Motor power supply 2 phase unipolar driving Figure 1 1 Example of System Configuration R20UT3056EJ0101 Rev 1 01 RENESAS Jan 16 2015 1 2 HMI expansion board ROK50564MB001BR 1 Overview 1 3 External Specifications Table 1 1 lists the External Specifications for the HMI expansion board Table 1 1 External Specifications No Item Description 1 Sound I O interface Includes a sound I O interface with RX64M SSI e Includes Asahi Kasei AK4642EN as Audio Codec LSI Input clock 12 288MHz Sampling rate 48kHz 24kHz 16kHz 1 2kHz are supported e Supports dual systems for 16 bit stereo Input output Microphone headphone stereo mini jack 1 for each Line in line out RCA jackx2 1 set for each e Sound input data can be input to RX64M ADC Selected by JP8 LEDs Includes 7 segment LEDs and individual LEDs e Includes 7 segment LEDs for 10 digits which can be used to display characters e 4user LEDs LEDs for motor external power supply and charger IC STAT Motor control interface Includes a stepping motor 2 phase unipolar driving control interface e Includes a 6 pin connector for motor driver circuit and motor connection e Motor power supply connector is prepared which can be switched by using the RSK power supply and jumper Camera in
24. C n D m C I O N LENESAS HMI Expansion Board ROKS0564MB001BR User s Manual Renesas Microcomputer RX64M Group 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 Corporation without notice Please review the latest information published by Renesas Electronics Corporation through various means including the Renesas Electronics Corporation website http www renesas com Renesas Electronics www renesas com Rev 1 01 201 5 1 10 11 12 Notice Descriptions of circuits software and other related information in this document are provided only to illustrate the operation of semiconductor products and application examples You are fully responsible for the incorporation of these circuits software and information in the design of your equipment Renesas Electronics assumes no responsibility for any losses incurred by you or third parties arising from the use of these circuits software or information Renesas Electronics has used reasonable care in preparing the information included in this document but Renesas Electronics does not warrant that such information is error free Renesas Electronics assumes no liability whatsoever for any damages incurred by you resulting from errors in or omissions from the information included herein R
25. ED APPROVED ROK50564MBO01BR Audio Interface and eMMC 2 5 SCALE DATE D ROK50564MB001BR_C 14 09 07 7 segment LED 1 disit x 10 avcc avcc R148 R153 Motor Connecting Interface amo F lst disit ao F 6th disit TP6 R46 3 R47 3 Ext 5VCC 5 7SEG comi K Mazza 7SEG1 5 7SEG com6 lt gt AAA proj E 7SEG6 J8 svcc TRA o LAP 401VD TRO o LAP 401VD S2B XH A bu SSM6JSOTU TILL ROHM SSMBJ50TU clef ROHM JST 1 1 1 1 2 2 ss 4 4 e xG88 0331 5 6 DO So 4 El o h 43 3vcc avcc i R149 R154 Es CES 3 10pF 25V J7 aro 3 isi nad D1 piu ML 700 NH 6P 2nd disit 7th disit vss vss SATO PARTS R49 3 R50 pom IB TSEG com2 lt gt ANZ ak c 7SEG2 B TSEG com lt gt Waza c 7SEG7 188355 A Red TR5 LAP 401VD TR10 LAP 401VD SSM6J50TU ROHM SSM6J50TU ROHM 10 1 10 MIRA RU YT 0 O White Com1 a ead Er om we ZKO 28D1834T1
26. O 0 16 IO 1 17 IO 2 18 IO 3 19 IO 4 20 IO 5 21 IO 6 22 IO 7 23 IRQ3 IRQAEC M2_ 24 IIC EX HSINO 25 IIC SDA 26 IIC SCL Note in Usage Destination column means that the pins are not used Table 3 2 Pins for Application Header JA2 Pin AA Pin A kiu Signal Name Port Usage Destination No Signal Name Port Usage Destination 1 RESET Device reset 2 EXTAL 3 NMI 4 Vss1 GND via 009 resister 5 WDT_OVF 6 SClaTX P90 Non contact thermal sensor USB battery control and serial communication with touch panel I2C UART 7 IRQO WKUP M1 H 8 SCIaRX P92 Non contact thermal sensor SINO USB battery control and serial communication with touch panel I2C UART 9 IRQ1 M1 HSIN1 5 10 SCIaCK P91 LEDO control 11 M1 UD 12 CTSRTS P93 LED1 control 13 M1 Up 14 M1 Un 15 M1 Vp 16 Mi Vn 17 M1 Wp 18 MI Wn 19 TimerOut 20 TimerOut 21 Timerln 22 Timerln 23 IRQ2 M1_EncZ M1 24 MI POE _HSIN2 25 MI TRCCLK 26 MI TRDCLK Note in Usage Destination column means that the pins are not used 1 in Signal Name Port column indicates that the settings on the RSK for RX64M CPU Board should be changed when appropriate functions are used Refer to Section 3 3 for details about setting change R20UT3056EJ0101 Jan 16 2015 Rev 1 01 TENESAS HMI expansi
27. T mode ADC2 and ADC3 are used to monitor the battery status and also to input the sound data The JP8 is used to select either for monitoring battery status or inputting sound data Figure2 8 the USB Battery Charge Controller Block Diagram JA6 iz i EXT veus FHL CY Y 19 EXT BATT EEE iio Cr 21 EXT_CHG Io LTC3428 Ferrite beadsx3 383k Q PGNDB 121kQ 1000pF JA3 a2 22 SHDNn A21 PC5 ABRO 1 USUP Each capacity condenser is allocated nearby IC L5 2 2uH R2A20057BX Al HAT1069C IN1 DOUT1 4 IN2 DOUT2 22uF e IN3 SYS1 STATn SYS2 El D4 VSS TP1 9 POKn SGn C4 C5 HAT1069C From non contact SCL7 E4 USUP FBC A5 thermal sensor SCL BAT1 SDA7 E3 ka SDA BAT2 18kQx2 D2 DP THVDD E2 D3 ska DM SGREF f C1 GND TH B2 DDGND CTL CENn VSS Optional VSS From sound I O BTT TEMP interface BTT MON VSS mI mt 5V system power supply line such as VBUS 4 xxV power supply line connected to the battery Lithium ion battery GND Connected to the outside of the board Figure2 8 USB Battery Charge Controller Block Diagram R20UT3056EJO101 Rev 1 01 TENESAS 2 9 Jan 16 2015 HMI expansion board ROK50564MB001BR 2 10 Powe
28. TBYn 5 RS232TX 6 RS232RX 7 SCIbRX 8 SCIbTX 9 SCIcTX P50 I2C for sound I O control 10 SClbCK 11 SCIcCK 12 SCIcRX P52 I2C for sound I O control 13 M1 Toggle 14 Mi Uin 15 M1 Vin P11 LED3 control 16 M1 Win P10 LED2 control 17 Reserved USB battery charge 18 Reserved USB VBUS control 19 Reserved USB battery charge 20 Reserved USB BATT control 21 Reserved USB battery charge 22 Reserved USB CHG control 23 Unregulated VCC 24 VSS GND via 0 ohm resister Note in Usage Destination column means that the pins are not used 1 in Signal Name Port column indicates that the settings on the RSK for RX64M CPU Board should be changed when appropriate functions are used Refer to Section 3 3 for details about setting change R20UT3056EJ0101 Rev 1 01 Jan 16 2015 31 N SAS HMI expansion board ROK50564MB001BR 3 Operational Specifications Table3 6 Pins for SSI Connector Pin P Pin i NE No Signal Name Port Usage Destination No Signal Name Port Usage Destination 1 5V 2 3V3 3 GND 4 GND 2 5 AUDIOCLK P22 Sound I O data transfer 6 GND 7 GND 8 NC 9 SSISCKO P23 Sound I O data transfer 10 SSIRXDO P20 Sound I O data transfer 11 SSIWSO P21 Sound I O data transfer 12 SSITXDO P17 Sound I O data transfer Note in Usage Destination column means that the p
29. Teheran ro Gangnam Ku Seoul 135 920 Korea Tel 82 2 558 3737 Fax 82 2 558 5141 2014 Renesas Electronics Corporation All rights reserved Colophon 3 0 HMI Expansion Board ROK50564MB001BR User s Manual ENESAS Renesas Electronics Corporation ka I
30. Waste Electrical and Electronic Equipment WEEE Directive 2002 96 EC As a result this equipment including all accessories must not be disposed of as household waste but through your locally recognised recycling or disposal schemes As part of our commitment to environmental responsibility Renesas also offers to take back the equipment and has implemented a Tools Product Recycling Program for customers in Europe This allows you to return equipment to Renesas for disposal through our approved Producer Compliance Scheme To register for the program click here http www renesas com weee About This Manual 1 Purpose and Target Readers This manual is designed to provide the user with an understanding of the functions and operating specifications of this extension board A basic knowledge of electrical circuits logical circuits and microcomputers MCUS is necessary in order to use this manual This manual is composed of an overview of the expansion board its functional and operational specifications Carefully read all notes described in the body of text in the manual The Revision History summarizes the modifications and additions to the previous versions Refer to the text of the manual for details The following document applies to the RX64M HMI Expansion Board ROK50564MBO01BR Document Type Description Document Title Document No User s Manual Describes functional specifications HMI Expansion Board This publication d
31. and AK4642EN LIN2 Exclusive control is necessary for 9 10 Open Disconnects LINE IN L and AK4642EN LIN2 Concurrent short circuit disabled 13 14 Short Connects LINE IN R and RX64M ADC3 Exclusive control is necessary for 5 6 Open Disconnects LINE IN R and RX64M ADC3 15 16 and SW19 20 Concurrent short circuit disabled 15 16 Short Connects LINE IN R and AK4642EN RIN2 Exclusive control is necessary for 13 14 Open Disconnects LINE IN R and AK4642EN RIN2 Concurrent short circuit disabled 17 18 Short Connects BTT MON and RX64M ADC2 Exclusive control is necessary for 1 2 9 10 Open Disconnects BTT MON and RX64M ADC2 Concurrent short circuit disabled 19 20 Short Connects BTT TEMP and RX64M ADC3 Exclusive control is necessary for 5 6 and Open Disconnects BTT TEMP and RX64M ADC3 13 14 Concurrent short circuit disabled Note Default setting R20UT3056EJ0101 Rev 1 01 LEN ESAS 3 17 Jan 16 2015 HMI expansion board ROK50564MB001BR 3 Operational Specifications 3 2 2 LEDs The ROK50564MBO001BR has ten 7 segment LEDs and six single LEDs 3 2 2 1 7 Segment LEDs The ROK50564MBOOIBR has 7 sigment LEDs 7SEGI to 7SEG10 for ten digits These LEDs are anode common type and using the cathode side in common they use a dynamic lighting circuit which lights on by common switching Refer to Figure 2 3 Block Diagram for 7 Segment LEDs and User LEDs for details about the signal connection 3222 Single LEDs The ROK50564MB001BR has six single LEDs
32. dd edente eel edet bet e etie 3 1 3 1 1 RSK for RX64M CPU Board Connectors JA1 to JA3 JAS JA6 SSI and PDC 3 2 3 1 2 Sound I O Connectors J1 J2 J3 and JA woo cccccssssssececececsesseaeceeececeessaeceeececeesssaeeeeceesessaeeeeeeeeens 3 7 3 1 3 Motor Connector T smb aids Eco tte a Acie tes 3 9 3 1 4 External Power Supply Connector J8 raer eene nenne eene enne 3 9 3 1 5 Camera Connector 1J9 aoo eal ent bet EEG iR 3 10 3 1 6 Sensor Connector J10 no I EV e NN eaten Dea de un deca kn 3 11 3 1 7 Touch Panel Connector TT ni hei kamo ha aceites eie cues 3 12 3 1 8 GND Connector 1 12 tti etc ei etm cte e e tet dede ete 3 13 32 Operation Parts Layout 4 pureo 3B sakon eparmatdtibeg lao 3 14 3 2 1 Jumpers JPI JPA to PS Asa sn ii Sided eine heats 3 15 3 2 2 LEDS 2 nRRERSE PERIERE tee e 3 18 3 2 3 Potentiome tE Sr pe er eS een ee ee 3 18 3 2 4 Test PINS otto 3 3 Settings for RSK for RX64M CPU 34 Dimensions esseseseseeseses asnno Appendix ROK50564MB001BR Schematics Board HMI expansion board ROK50564MB001BR 1 Overview 1 Overview 1 1 Overview The HMI expansion board ROK50564MBO001BR is a functional expansion board used by connecting with the RSK for RX64M CPU Board The features of the HMI expansion board are listed below e Pin jacks for sound input dual system mic line in and sound output dual system headphone li
33. digit WW Ce ANY E E COM COM A 1 A B B c c D a a pa T F G G o DP 3VCC MV NAA 7 segment LED 7 segment LED 22kQ 5 digit 10 digit NAA N VV E AL com COM A 1 A c c JA3 LAE o 7SEG comi E t E 7SEG_com2 B 7SEG coma e 0 G 1 G 7SEG_com4 DP 4 pP 7SEG com5 7SEG com6 7SEG com7 7SEG com8 7SEG com9 7SEG com10 avec 7SEG a LT 7454 WA 7SEG b A 7SEG c Add 7SEG d an 7SEG_e T Pu 7SEG f jr 7SEG g kia 7SEG DP E OE1 OE2 GND VVV 3309 x8 VSS Figure2 2 Block Diagram for 7 Segment LEDs and User LEDs R20UT3056EJ0101 Rev 1 01 LENESAS 2 3 Jan 16 2015 HMI expansion board ROK50564MB001BR 2 4 Motor Control Interface 2 Functional Specifications The ROK50564MB001BR includes the drive circuit and the motor connector J7 6 pin to control the stepping motor 2 phase unipolar driving The RX64M MTU3 Ch7 PA1 PA2 P66 and P67 is used to control the motor The power supply 5V for motor drive can be supplied by selecting either the application header JA1 1 or the external power supply connector J8 at JP4 for power supply selection Figure2 3 shows the Motor Control Interface Block Diagram Power block gt 5V power supply for motor drive
34. enesas Electronics does not assume any liability for infringement of patents copyrights or other intellectual property rights of third parties by or arising from the use of Renesas Electronics products or technical information described in this document No license express implied or otherwise is granted hereby under any patents copyrights or other intellectual property rights of Renesas Electronics or others You should not alter modify copy or otherwise misappropriate any Renesas Electronics product whether in whole or in part Renesas Electronics assumes no responsibility for any losses incurred by you or third parties arising from such alteration modification copy or otherwise misappropriation of Renesas Electronics product Renesas Electronics products are classified according to the following two quality grades Standard and High Quality The recommended applications for each Renesas Electronics product depends on the product s quality grade as indicated below Standard Computers office equipment communications equipment test and measurement equipment audio and visual equipment home electronic appliances machine tools personal electronic equipment and industrial robots etc High Quality Transportation equipment automobiles trains ships etc traffic control systems anti disaster systems anti crime systems and safety equipment etc Renesas Electronics products are neither intended nor author
35. evices memory maps electrical ROK50564MB001BR characteristics and operational User s Manual specifications connectors and switches The following documents apply to the RX64M group Make sure to refer to the latest version of these documents which can be obtained from Renesas Electronics website Document Type Description Document Title Document No User s Manual Hardware Hardware specifications pin RX64M Group User s RO1UHO0O377EJ assignments memory maps manual Hardware peripheral function specifications electrical characteristics timing charts and operation description Application note Applications sample programs etc Available on Renesas Electronics website RENESAS TECHNICAL Information regarding product UPDATE specifications documents etc 2 Frequently Used Abbreviations and Acronyms Asynchronous Communication Interface Adapter Bits per second Cyclic Redundancy Check Direct Memory Access Direct Memory Access Controller Global System for Mobile Communications High Impedance Inter Equipment bus Input Output Infrared Data Association Least Significant Bit Most Significant Bit Non Connection Phase Locked Loop Pulse Width Modulation Special Function Registers Subscriber Identity Module Universal Asynchronous Receiver Transmitter Voltage Controlled Oscillator All trademarks and re
36. face The ROK50564MBOOIBR includes Asahi Kasei Audio Codec LSI AK4642EN to support the sound I O function The RX64M SCIg Ch2 is used to control the Audio Codec LSI in simple I2C mode and the SST is used to transfer the sound data The port P51 is used to control power down mode and the port PB7 is used for BEEP input The potentiometer VR1 is also included in the ROK50564MB001 BR for BEEP sound control On the ROK50564MB001BR the sound data can be input to the RX64M ADC by setting JP8 because ADC2 and ADC3 used for sound data input are also connected to the USB battery charge controller Figure 2 1 shows the Sound I O Interface Block Diagram JA1 11 ADC2 12 ADC3 Audio Codec LSI AK4642EN AVCC 3VCC 22uF 15 pvoo vcow C AVDD MPWR 4 e avcc HVDD lo ee 2 2k0x2 otur MIC IN J1 5 Lint 3 4 3 x2 JAG 12C Aint 2 es L 12 2 SSCL2 SCL E TuF 2 2 spa l SDA EL LINE IN J3 3VCC R62 47k0 Optional LIN2 30 ti 5 12 l L2 l MAA CADO mina 22 113 A tur ee JA3 15 16 R2 ves R61 47k0 5 P51 1 7 pon UL y UI 16 19 20 PB7 ves 47kQ 6 Z y 28 JP8 BTT_MON MIN La To USB battery Ela BTT_TEMP charge controller AVSS SSI LINE OUT J4 27 L2 SSIRXDO SDTO LOUT ANN SSITXDO SDTI ROUT ES 2200x2 e
37. from JA2 and JA6 Figure2 2 shows the Block Diagram for 7 Segment LEDs and User LEDs aVcc aVoc 47kQ AMO V 7 segment LED VM 7 segment LED 22kQ i t digit 22kQ _ 6 digit v E VV CE com LI com A A B B c c Do e R E F F G G DP DP 3vcc aVoc Ako 47kQ VATAJ 7 segment LED VA 7 segment LED axe 2 digit 22kQ _ 7 digit EN OB WB XS 3VCC com com A A f B B JA2 User LEDO e c 10 LEDO Ike t T P91 AN Yo b T E Green E 4 E F F User LED1 0 E o 12 LeD1 KR 5 P93 VV Jj o F pp Green avec aVoc 47kQ 47kQ Vv 7 segment LED Wy 7 segment LED JA6 User LED2 axe 3 digit 22kQ 8 digit AN AN 1 16 EDZ RAS V E Plo MW aay com COM Green A A B B User LED3 z e 1kQ 15 LEDS K A P11 ANN CJ p Dp AAA Green E E Fo F 9 G t G op o avec 3vcc 47kQ AKQ ul vu 7 segment LED AN 7 segment LED 22kQ 4 digit 22k e J e
38. gistered trademarks are the property of their respective owners Table of Contents DEO CI FA AT NA SN A Ad IA NINI Ipo E 1 1 1 1 iul d sek SA Ada TAN AGA Minna hater atin esrus nea idu meat aad 1 1 1 2 System Configuration con etii eto doe e de t deerit 1 2 1 3 External Specific otros mn Ete ae AR ee RR 1 3 1 4 System Block Diagrams ienn ni reen rer eder e ede aah odes as A cadet nea 1 4 1 5 Absolute Maximum Ratings re tpe dr TT ITT Sek eee Poe e ERE aep terio 1 5 1 6 Operating Conditions zn eio orte PTT ica isis 1 5 2 Functional SpecifICatiOns oorr ror tete telo e ala Ia i exire tu tud eR moot skanitaj 2 1 2 1 Function OVeIVIEW aeo baa a eoe UR end o ee Stute sten A TAO eam ite ALA 2 1 22 Sound VO Mtra i ic spasme kiu denis suint kan lauso udas 2 2 2 3 1 Segment LEDs and User LEDs 3 ri et ib Or Re SR ates oso ss aal 2 3 24 Motor Control Interface aig all SN ated tete pte dei Si AE athe AVA oo 2 4 2 5 Camera Interface uio EE p ipn qu edere 2 5 2 6 Non Contact Thermal Sensor 2 5 per Rte iege ede tec rettet are eaten 2 6 2 7 IV VIGORO tene dd re 2 7 2 8 Touch Panel Interface sissies aie RO he bale elena area 2 8 2 9 USB Battery Charge Controller siii ps asi aver As itera abasic dad i NAV akeo in 2 9 20 PowerSupply WINE eee dee nh semus sans i idonee medo 2 10 3 Operational Specifications ssssssssssssssesssesesee eene eene nnne nennen sente intent ennt nnns ss nn nre 3 1 3 1 Connector OyerVIe Wd o
39. he eMMC Note Default setting R20UT3056EJ0101 Rev 1 01 Jan 16 2015 TENESAS 3 16 HMI expansion board ROK50564MB001BR 3 2 1 6 Analog Input Select Jumper JP8 3 Operational Specifications The ROK50564MBOOOBR has a jumper JP8 for sound data input and for switching RX64M ADC2 ADC3 input Table 3 25 lists the Setting for Analog Input Select Jumper JP8 Table 3 25 Setting for Analog Input Select Jumper JP8 No Setting Function Remarks 1 2 Short Connects MIC IN L and RX64M ADC2 Exclusive control is necessary for 3 4 9 10 Open Disconnects MIC IN L and RX64M ADC2 and 17 18 Concurrent short circuit disabled 3 4 Short Connects MIC IN L and AK4642EN LIN1 Exclusive control is necessary for 1 2 Open Disconnects MIC IN L and AK4642EN LIN1 Concurrent short circuit disabled 5 6 Short Connects MIC IN R and RX64M ADC3 Exclusive control is necessary for 7 8 Open Disconnects MIC IN R and RX64M ADC3 13 14 and 19 20 Concurrent short circuit disabled 7 8 Short Connecis MIC IN R and AK4642EN RIN1 Exclusive control is necessary for 5 6 Open Disconnects MIC IN R and AK4642EN RIN1 Concurrent short circuit disabled 9 10 Short Connects LINE IN L and RX64M ADC2 Exclusive control is necessary for 1 2 Open Disconnects LINE IN L and RX64M ADC2 11 12 and 17 18 Concurrent short circuit disabled 11 12 Short Connecis LINE IN L
40. ins are not used 1 in Signal Name Port column indicates that the settings on the RSK for RX64M CPU Board should be changed when appropriate functions are used Refer to Section 3 3 for details about setting change Table3 7 Pins for PDC Connector Pin EM Pin um No Signal Name Port Usage Destination No Signal Name Port Usage Destination 1 5V 2 3V3 3 GND 4 GND 5 PCKO P33 Camera interface 6 RESn Camera interface 7 GND 8 PIXCLK P24 Camera interface 9 VSYNC P32 Camera interface 10 HSYNC P25 Camera interface 11 PIXD7 P23 Camera interface 12 PIXD6 P22 Camera interface 13 PIXD5 P21 Camera interface 14 PIXD4 P20 Camera interface 15 PIXD3 P17 Camera interface 16 PIXD2 P87 Camera interface 17 PIXD1 P86 Camera interface 18 PIXDO P15 Camera interface 19 SDA P00 Camera interface 20 SCL P01 Camera interface Note in Usage Destination column means that the pins are not used 1 in Signal Name Port column indicates that the settings on the RSK for RX64M CPU Board should be changed when appropriate functions are used Refer to Section 3 3 for details about setting change R20UT3056EJ0101 Jan 16 2015 Rev 1 01 RENESAS 3 6 HMI expansion board ROK50564MB001BR 3 Operational Specifications 3 1 2 Sound I O Connectors J1 J2 J3 and J4 The ROK50564MB001BR has sound I O connectors J1 J2 J3 and J4
41. ized for use in products or systems that may pose a direct threat to human life or bodily injury artificial life support devices or systems surgical implantations etc or may cause serious property damages nuclear reactor control systems military equipment etc You must check the quality grade of each Renesas Electronics product before using it in a particular application You may not use any Renesas Electronics product for any application for which it is not intended Renesas Electronics shall not be in any way liable for any damages or losses incurred by you or third parties arising from the use of any Renesas Electronics product for which the product is not intended by Renesas Electronics You should use the Renesas Electronics products described in this document within the range specified by Renesas Electronics especially with respect to the maximum rating operating supply voltage range movement power voltage range heat radiation characteristics installation and other product characteristics Renesas Electronics shall have no liability for malfunctions or damages arising out of the use of Renesas Electronics products beyond such specified ranges Although Renesas Electronics endeavors to improve the quality and reliability of its products semiconductor products have specific characteristics such as the occurrence of failure at a certain rate and malfunctions under certain use conditions Further Renesas Electronics products are not subject
42. l Name Port column indicates that the settings on the RSK for RX64M CPU Board should be changed when appropriate functions are used Refer to Section 3 3 for details about setting change R20UT3056EJ0101 Jan 16 2015 Rev 1 01 TENESAS HMI expansion board ROK50564MB001BR 3 Operational Specifications Table 3 4 Pins for Application Header JA5 Pin 2 Pin Lo No Signal Name Port Usage Destination No Signal Name Port Usage Destination 1 ADC4 2 ADC5 3 ADC6 4 ADC7 5 CAN1TX 6 CAN1RX 7 CAN2TX 8 CAN2RX 9 IRQ4 M2_EncZ M2 10 IRQ5 M2_HSIN2 HSIN1 11 M2 UD 12 M2 Uin 13 M2 Vin 14 M2 Win 15 M2 Toggle 16 M2 POE 17 M2 TRCCLK 18 M2 TRDCLK 19 M2 Up 20 M2 Un 21 M2 Vp PA2 Timer output for motor 22 M2 Vn P67 Timer output for motor 23 M2 Wp PA1 Timer output for motor 24 M2 Wn P66 Timer output for motor Note in Usage Destination column means that the pins are not used 1 in Signal Name Port column indicates that the settings on the RSK for RX64M CPU Board should be changed when appropriate functions are used Refer to Section 3 3 for details about setting change Table3 5 Pins for Application Header JA6 Pin UA Pin s No Signal Name Port Usage Destination No Signal Name Port Usage Destination 1 DREQ 2 DACK 3 TEND 4 S
43. listed in Table 3 26 Table 3 226 ROK50564MB001BR Mounted LEDs No Color Function Remarks LEDO Green User LED Turns on when the RX64M P91 port has Low level output LED1 Green User LED Turns on when the RX64M P93 port has Low level output LED2 Green User LED Turns on when the RX64M P10 port has Low level output LED3 Green User LED Turns on when the RX64M P11 port has Low level output LED4 Red USB battery charge controller IC status monitoring LED Turns on when STATn has Low level output LED5 Blue LED for external power supply Turns on when the motor drive 5V external power is supplied 3 2 3 Potentiometer The ROK50564MB001BR has one potentiometer listed in Table 3 27 for buzzer input gain control to Audio Codec LSI Refer to the datasheet provided by the manufacturer for accuracy and others Regarding the relationship between setting resistance values and input gain refer to the connection diagram attached to this manual and the Audio Codec LSI datasheet Table 3 27 ROK50564MB001BR Mounted Potentiometer No Product No Manufacturer VR1 N6 L50TOS 103 or N6 L50TOC 103 PIHER R20UT3056EJ0101 Rev 1 01 244 NE SAS 3 18 Jan 16 2015 HMI expansion board ROK50564MB001BR 3 Operational Specifications 3 2 4 Test Pins The ROK50564MB001BR has five test pins listed in Table 3 28 for the USB battery charge controller Table 3228 ROK50564MBOO1BR Mo
44. ne out are included Asahi Kasei AK4642EN is included as Audio Codec LSI to make it possible to input output high quality sound data The sound data can also be input to the RX64M ADC e 7 segment LEDs for 10 digits is included which can be used to display characters for demonstrations e Stepping motor control circuit and connectors for motor connection are included which enable motor operation working with the RSK for RX64M CPU Board communication systems and display e Connectors for camera connection are included These connectors can be used as input devices for the camera with the PDC interface e Connectors for OMRON Non Contact Thermal Sensor D6T 44L 06 are included as a human sensor These connectors can be sued in demonstrations e AneMMC device with 8GB is included e A touch panel connector 8 pin FFC for R8C 3JT touch panel demonstration board ROK521336C0001BR is included e A USB battery charge controller with RX64M USB Full Speed USBA is included which makes it possible to evaluate the lithium ion battery charging function from VBUS with R2A20057BX and the power supply function from lithium ion battery to VBUS R20UT3056EJ0101 Rev 1 01 LENESAS 1 1 Jan 16 2015 HMI expansion board ROK50564MB001BR 1 2 System Configuration Figure 1 1 shows the Example of System Configuration with HMI expansion board 1 Overview RSK for RX64M CPU board Lithium ion battery AC adapter for RSK for RX
45. on board ROK50564MB001BR 3 Operational Specifications Table 3 3 Pins for Application Header JA3 Pin t Pin i TM No Signal Name Port Usage Destination No Signal Name Port Usage Destination 1 AO PAO Port for USB battery 2 Al charge control 3 A2 4 A3 PAS Port for 7 seg LED 5 A4 PA4 Port for 7 seg LED 6 A5 PA5 Port for 7 seg LED 7 A6 PAG Port for 7 seg LED 8 A7 PA7 Port for 7 seg LED 9 A8 PBO Port for 7 seg LED 10 A9 PB1 Port for 7 seg LED 11 A10 PB2 Port for 7 seg LED 12 A11 PB3 Port for 7 seg LED 13 A12 PB4 Port for 7 seg LED 14 A13 PB5 Port for 7 seg LED 15 A14 PB6 Port for 7 seg LED 16 A15 PB7 Port for sound I O 17 DO 18 DI 19 D2 20 D3 21 D4 22 D5 23 D6 24 D7 25 RDn gt 26 WR SDWE P64 Port for 7 seg LED 27 CSa 28 CSb P61 Port for 7 seg LED 29 D8 30 D9 31 D10 32 D11 33 D12 34 D13 35 D14 36 D15 37 A16 38 A17 39 A18 40 A19 41 A20 42 A21 PC5 Port for USB battery charge control 43 A22 PC6 44 SDCLK BCLK Port for 7 seg LED P53 45 CSc Wait 46 ALE SDCKE Port for 7 seg LED P65 47 HWRn DQM1 Port for sound I O 48 LWRn DQMO P51 49 CAS P63 Port for 7 seg LED 50 RAS P62 Port for 7 seg LED Note in Usage Destination column means that the pins are not used 1 in Signa
46. ontrol circuit so the 8 pin FFC type connector J11 cannot be used with these devices at the same time Figure2 7 shows the Touch Panel Interface Block Diagram Touch panel connector SVCC J1 block JA2 1 i 00 3 VCC RESET ANN a RESET MODE TXD JA1 5 9 00 A RXD FFC specific ANO ANN DAOUT cable NC 8 GND From Non contact A RXD7 kd thermal sensor A TXD7 ves 52207 0817 To touch panel R8C 3JT demonstration board Figure2 7 Touch Panel Interface Block Diagram R20UT3056EJ0101 Rev 1 01 LENESAS 2 8 Jan 16 2015 HMI expansion board ROK50564MB001BR 2 Functional Specifications 2 9 USB Battery Charge Controller The ROK50564MB001BR supports the battery charging function and the power supply function to VBUS using the RX64M USB Full Speed USBA which corresponds to the Battery Charging Class The USB Full Speed ports on the RSK for RX64M CPU Board are used to evaluate the lithium ion battery charging function from VBUS and the VBUS power supply function from the lithium ion battery by using the VBUS signal from the USB Hi Speed ports via the application header JA6 The battery charger IC includes the R2A20057BX and the RX64M SCIg Ch7 is used in simplified I2C mode to control the charger IC The SCIg Ch7 is also connected to the non contact thermal sensor and the touch panel interface but the latter cannot be used at the same time because it is used in UAR
47. ower supplied from the RSK for RX64M CPU Board is used for the sensor drive power supply SV and the RX64M SCIg Ch7 is used to control the sensor in simplified I2C mode Because this sensor uses 5V operation a level shifter circuit is inserted between the sensor and the RX64M The SCIg Ch7 is also connected to the touch panel interface and the USB battery charge control circuit The USB battery charge controller can be applied at the same time because it is used in simple I2C mode but the touch panel interface cannot be applied at the same time because it is used in UART mode Either JP5 or JP6 should be selected to use the touch panel interface Figure2 5 shows the Non Contact Thermal Sensor Block Diagram on ROK50564MBO01BR D6T 44L 06 3VCC 5VCC Sensor connector A2 J10 J JP5 1 5kQ 1 2 3 x2 Oo o Oo o o hd 1 2 3 Sensor specific cable JP6 PCA9517 us SM05B GHS TB JST Sensor specific cable SDA7 3 SCL7 gt To USB battery charge controller A TXD7 5 e A RXD7 gt To touch panel interface bc d gt if Housing GHR 04V 2 JST Contact SSHL 002T P0 2 JST Figure2 5 Non Contact Thermal Sensor Block Diagram R20UT3056EJ0101 Rev 1 01 LENESAS 2 6 Jan 16 2015 HMI expansion board ROK50564MB001BR 2 Functional Specifications 2 7 eMMC The ROK50564MB001BR includes one eMMC controlled by the RX64M MMCHI Please note that the RX64M
48. r Supply Wiring 2 Functional Specifications 3 3V and 5V are supplied from the RSK for RX64M CPU Board via JA1 JA2 and JA3 connector The 3 3V power is supplied to all the interfaces and devices except the motor control interface and the 5V power is supplied to the motor control interface the non contact thermal sensor and the camera interface The power supplied to the camera interface is used to generate 2 75V power supply for camera module driver In the motor control interface either the 5V power supplied from JA1 connector or 5V input from the external power supply connector J8 is selected at JP4 to be used as 5V power supply for motor drive Figure2 9 shows the Power Supply Wiring on ROK50564MBO01BR External power supply connector J8 DC5V supply JA1 5VCC 1 5V 3VCC 3 3V3 GND JA2 4 GND JA6 24 GND VSS External power supply LED LED5 UNE Motor control interface Sound V O interface 7 segment LEDs User LEDs emue Touch panel interface External 5V system power supply from 5VCC or Jxx 3VCC 3 3V system power supply GND Figure2 9 Power Supply Wiring R20UT3056EJ0101 Rev 1 01 Jan 16 2015 RENESAS HMI expansion board ROK50564MB001BR 3 Operational Specifications 3 Operational Specifications 3 1 Connector Overview Figure 3 1 shows the ROK50564MB001BR Connector Assignments EE Connectors for RSK for RX6
49. resistor R274 R290 R387 R433 R464 Remove 00 resistor 7 seg LED R348 R404 R429 R445 Mount 0 resistor R351 R409 Remove 00 resistor User LED R40 R83 R187 Mount OQ resistor R423 R424 R428 R441 Remove 00 resistor Motor R51 R62 R63 R70 Mount 0C resistor R3 Remove 00 resistor USB battery R15 Mount 0 resistor R141 R165 Remove 00 resistor USB battery thermal sensor and touch panel Switch SW6 SW6 1 OFF USB battery Jumper J9 J20 J9 Open J20 2 3 pin Short LEDO LED3 J8 J13 2 3 pin Short USB battery J22 1 2 pin Short J1 J7 J9 Setting is changed according to the power supply or charge evaluation J15 J17 Open PDC camera J16 J18 2 3 pin Short 1 2 pin Short for Ether USB battery thermal sensor and touch panel Others D2 Change to 0O resistor USB battery RV1 Set wiper terminal voltage as about 1 5V Touch panel Connector JA1 JA2 Mount 26 pin connector on solder side Not included by default to connect this board Connectors adjunct to the JA3 Mount 50 pin connector on solder side ROK50564MB001BR are to connect this board used JA5 JAG Mount 24 pin connector on solder side to connect this board PDC Mount 20 pin connector on solder side to connect this board SSI Mount 12 pin connector on solder side to connect this board R20UT3056EJ0101 Rev 1 01 TENESAS 3 20 Jan 16 2015 HMI expansion board ROK50564MB001BR 3 Operational Specifications
50. s Instruments 5 7SEG f R69 N vasa R70 5 7SEG g 3300 5 7SEG e E BT Wa t 5 7SEG_d LM 5 7SEG DP BB ANN R74 5 SEG ic CP51 Was R75 S 7SEG_b 0 1HF 10V 3300 5 7SEG a B18 Mason vss 77 D i Renesas Solutions Corp ROK50564MBO01BR 7Seg LED Usr LED and Motor I F DRAWN CHECKED DESIGNED APPROVED d r 3 7 55 SCALE D ROK50564MBOO1BR C pate 1 4 08 07 1 2 3 4 5 Camera Interface 2 7VCC gjg pos 33 rd i4 R99 15 PDC_SCL Rog Won 5 PDC_SDA NOG 3vcc eee QA S RIA E SEE elea 5 PDC_VSYNC lt gt Mom 5 PDC_HSYNC lt gt RISE 4 SN74CB3T3125 vss 77 2 7VCC J9 Camera u11c 5 PIXCLK RIOT i 3 4 vss 77 5 2 7VCC 6 ki 5 PCKO m RW Wag 3Vcc CP36 0 1uF 10V u13 vss 77 SSW 108 02 T D RA SN74CB3T3245 Samtec Texas Instruments R118 SP aras 118 5 PIXD7 R119V og 37 A1 7 B1 37 5 PIXD6 RIZONVVOO 4 2 Fre 82 6 5 PIXD5 121 Wo 5 A3 2 o B3 15 El PIXD4 RI22VWW00 57 44 ho B4 LA 5 PIXD3 77 A5 Bo B5 43 5 PIXD2 R126 Wo g A6 o B6 5 5 PIXD1 RIS7W99 g A7 B7 A1 5 PIXDO Wo is A8 ES 3VCT 15 NC vec Hi OE GND 0P40 0 1uF 10V vss vss 5VCC 2 7VCC ADJ GND CEI LT1117 100yF 10V R131 1470 CE13
51. s not possible to concurrently use the R40 Mount 02 resistor LED3 P11 user LEDs while the said signals are used on Jumper J9 Open LED3 P11 the RSK for RX64M CPU Board J20 2 3 pin Short LEDO P91 Table 3 33 Settings for RSK for RX64M CPU Board when Motor Control Interface Used Type Part No Setting and limitation Notes Resistor R423 R424 Remove 00 resistor P66 P67 PA1 and PA2 are used for the SDRAM R428 R441 control signal on the RSK for RX64M CPU Board It R51 R62 Mount 00 resistor is not possible to concurrently use the motor control R63 R70 interface while the said signal is used on the RSK for RX64M CPU Board R20UT3056EJ0101 Rev 1 01 LTENESAS 3 21 Jan 16 2015 HMI expansion board ROK50564MB001BR 3 Operational Specifications Table 3 34 Settings for RSK for RX64M CPU Board when Camera Interface Used Type Part No Setting and limitation Notes Resistor R317 R330 Remove 00 resistor P17 is used for the serial EEPROM control signal and P32 R490 R518 and P33 are used for the CAN control signal P20 P21 and R267 R270 Mount 0Q resistor P22 are used for the USB control signal and POO and PO1 R271 R273 are used for the PMOD1 control signal on the RSK for R274 R290 RX64M CPU Board Also the PDC singles are multiplexed Jumper J15 J17 Open with the SSI signal therefore they aren t possible to concurrently
52. t output e Mic and line in can be input to RX64M ADC2 and ADC3 JP8 is used 2 3 7 Segment LEDs and e 7 segment LEDs Red 10 Can be used to display characters User LEDs e User LEDs 4 2 4 Motor Control Interface Includes a driver circuit and connectors for stepping motor 2 phase unipolar driving 2 5 Camera Interface Includes a camera interface which can be connected to PDC for image input e OmniVision OV7670 camera module can be connected e 2 7 system power supply generator for camera module and level shifter circuit e A 16 pin DIP connector 2 6 Non Contact Thermal Includes a non contact thermal sensor interface as a human sensor Sensor e Omron D6T 44L 06 can be connected e 2C interface level shifter circuit 2 7 eMMC Includes an eMMC device with 8GB 2 8 Touch Panel Interface Includes a 8 pin FFC connector for R8C 3JT touch panel demonstration board ROK521336C0001BR 2 9 USB Battery Charge Includes a USB battery charging function with RX64M USB Full Speed USBA ControllerUSB Battery e Lithium ion battery charging function from VBUS with R2A20057BX Charge Controller e Power supply function from lithium ion battery to VBUS 2 10 Power Supply Wiring 3 3V and 5V system power supply and ground wiring from JA1 JA2 and JA6 connector Operational Specifications Chapter 3 describes details of connectors jumpers and LEDs R20UT3056EJ0101 Rev 1 01 TENESAS 2 1 HMI expansion board ROK50564MB001BR 2 Functional Specifications 2 2 Sound l O Inter
53. terface Includes a camera interface which can be connected to PDC for image input e Includes 2 7 system power supply generator a level shifter circuit and a 16 pin DIP connector expecting that OmniVision OV7670 camera module is connected Non contact thermal sensor Includes OMRON Non Contact Thermal Sensor D6T 44L 06 to be connected on 12C as a human sensor eMMC Includes the 8GB eMMC that controlled by RX64M MMCHI for Backward compatible mode access Note that this should be controlled exclusively from the SD card slot on RSK for RX64M CPU Board Touch panel interface Includes a connector 8 pin FFC for R8C 3JT touch panel demonstration board ROK521336C0001BR USB battery charge controller Includes a USB battery charge controller with RX64M USB Full Speed USBA e Test pin 3 pin is prepared to connect the lithium ion battery e Lithium ion battery charging function from VBUS with R2A20057BX e Power supply function from lithium ion battery to VBUS RSK interface Includes the following connectors for RSK for RX64M CPU Board JA1 JA2 26 pin JA3 50 pin JA5 JA6 24 pin PDC 20 pin and SSI 12 pin 10 Board specifications e Dimensions 180 mmx180 mm e Mounting form 4 layer double sided Thickness 1 6mm e Number of board 1 R20UT3056EJ0101 Rev 1 01 Jan 16 2015 RENESAS 1 3 HMI expansion board ROK50564MB001BR 1 Overview 1 4 System Block Diagram Fig
54. to radiation resistance design Please be sure to implement safety measures to guard them against the possibility of physical injury and injury or damage caused by fire in the event of the failure of a Renesas Electronics product such as safety design for hardware and software including but not limited to redundancy fire control and malfunction prevention appropriate treatment for aging degradation or any other appropriate measures Because the evaluation of microcomputer software alone is very difficult please evaluate the safety of the final products or systems manufactured by you Please contact a Renesas Electronics sales office for details as to environmental matters such as the environmental compatibility of each Renesas Electronics product Please use Renesas Electronics products in compliance with all applicable laws and regulations that regulate the inclusion or use of controlled substances including without limitation the EU RoHS Directive Renesas Electronics assumes no liability for damages or losses occurring as a result of your noncompliance with applicable laws and regulations Renesas Electronics products and technology may not be used for or incorporated into any products or systems whose manufacture use or sale is prohibited under any applicable domestic or foreign laws or regulations You should not use Renesas Electronics products or technology described in this document for any purpose relating to military applications or use by
55. touch panel interface 2 3 short Connects to the SDA7 signal to the non contact thermal sensor and the USB battery charge controller Note Default setting 3 2 1 4 A TXD Select Jumper JP6 JP6 selects the connection destination for the A TXD signal of the RX64M SCIg Ch7 Pin 1 and 2 should be connected when connecting the A TXD signal to the touch panel interface and pin 2 and 3 should be connected when connecting the SCL7 signal to the non contact thermal sensor and the USB battery charge controller Table 3 23 lists the Settings for A TXD Select Jumper JP6 Table 3 223 Settings for A TXD Select Jumper JP6 No Setting Function JP6 1 2 short Connects the A TXD signal to the touch panel interface 2 3 short Connects the SCL7 signal to the non contact thermal sensor and the USB battery charge controller Note Default setting 3 2 1 5 eMMC Select Jumper JP7 JP7 controls the signal line connection between the RX64M and the eMMC It is connected to use the eMMC When the eMMC is not used it can be separated after the bus switch which has been inserted between the RX64M and the eMMC turned off by disconnecting JP7 Table 3 24 lists the Settings for eMMC Select Jumper JP7 Table 3 224 Settings for eMMC Select Jumper JP7 No Setting Function JP7 Open Do not connect the RX64M MMCHI signal to the eMMC eMMC disabled Short Connects the RX64M MMCHI signal to t
56. unted Test Pins No Function Remarks TP1 Monitoring POKn signals of battery charge controller IC TP2 Monitoring SGn signals of battery charge controller IC TP3 Connected to pin of lithium ion battery Connects battery for charge control to the outside of the board TP4 T Connected to T pin of lithium ion battery Connects battery for charge control to the outside of the board TP5 Connected to pin of lithium ion battery Connecis battery for charge control to the outside of the board R20UT3056EJ0101 Rev 1 01 LENESAS 3 19 Jan 16 2015 HMI expansion board ROK50564MB001BR 3 Operational Specifications 3 3 Settings for RSK for RX64M CPU Board Table 3 29 lists the settings required on the RSK for RX64M CPU Board which is connected depending on the function used Table 3 30 to Table 3 37 list the settings for each function when the ROK50564MB001BR is used These settings must be followed when connecting the RSK for RX64M CPU Board with the ROK50564MBO01BR Table 3 229 Settings for RSK for RX64M CPU Board when ROK50564MB001BR Connected Type Part No Setting Usage Resistor R100 R115 R268 R269 Remove 00 resistor Sound I O R317 R330 R481 R518 R99 R114 R285 R286 Mount 0 resistor R287 R288 R289 R476 R317 R330 R490 R518 Remove 00 resistor Camera R267 R270 R271 R273 Mount 0Q
57. ure 1 2 shows the Example of System Configuration for the HMI expansion board eri gt attery seg charge LED die Oscillator HP controller 12 288MHz po I y Y PORT LINE OUT Sensor SCI I2C connector Audio Codec AK4642EN MIC Touch panel SCI UART connector Switches k 4 LINE IN m Camera PDC connector 5V Jumper Connectors for motor 5V MMCHI SSI ADC PORT y v y Y Y Y Through hole for expansion connectors JA1 JA2 JA3 JA5 JA6 PDC and SSI Figure 1 2 System Block Diagram R20UT3056EJO101 Rev 1 01 RENESAS 1 4 Jan 16 2015 HMI expansion board ROK50564MB001BR 1 Overview 1 5 Absolute Maximum Ratings Table 1 2 lists the Absolute Maximum Ratings for the HMI expansion board Table 1 2 Absolute Maximum Ratings Symbol Item Rated Value Remarks 5VCC 5V system power supply voltage 0 5V to 6 0V Vss reference 3VCC 3 3V system power supply voltage 0 5V to 4 1V Vss reference Only for direct supply Topr Operating ambient temperature 0 C to 50 C Do not expose to condensation or corrosive gases Tstg Storage ambient temperature 20 C to 609C Do not expose to condensation or corrosive gases Note The ambient temperature is the air temperature immediate to the board 1 6
58. ure 3 8 shows the Pin Assignment for Touch Panel Connector J11 and Table 3 17 lists the pin names for the connector Top view of Side view component side Board Figure 3 8 Pin Assignment for Touch Panel Connector J11 Table3 17 Pins for Touch Panel Connector J11 Pin No Signal Name Pin No Signal Name 1 VCC 2 RESET 3 MODE NC 4 TXD 5 RXD 6 DAOUT 7 NC 8 GND R20UT3056EJ0101 Rev 1 01 LEN ESAS 3 12 Jan 16 2015 HMI expansion board ROK50564MB001BR 3 Operational Specifications 3 1 8 GND Connector J12 The ROK50564MB001BR has a GND connector J12 Figure 3 9 shows the Pin Assignment for GND Connector J12 and Table 3 18 lists the pin names for the connector Top view of component side Figure 3 9 Pin Assignment for GND Connector J12 Table 3 18 Pins for GND Connector J12 Pin No Signal Name 1 GND 2 GND 3 GND R20UT3056EJ0101 Rev 1 01 LENESAS 3 13 Jan 16 2015 HMI expansion board ROK50564MB001BR 3 Operational Specifications 3 2 Operation Parts Layout The ROK50564MB001BR has jumpers LEDs potentiometer and test pins as operational parts Figure 3 10 shows the Operation Parts Layout for ROK50564MB001BR O mE O 3 3 7SEG 7 7SEG5 7SEG3 S SEG LEDO LED2 LED1 LED3 0008 Figure 3 10 Operation Parts La
59. yout for ROK50564MB001BR R20UT3056EJO101 Rev 1 01 RENESAS 3 14 Jan 16 2015 HMI expansion board ROK50564MB001BR 3 Operational Specifications 3 2 1 Jumpers JP1 JP4 to JP8 Six jumpers listed in Table 3 19 are included in the ROK50564MBOOIBR to select functions Table 3 19 Jumpers for ROK50564MB001BR No Jumper Name Function JP1 AUDIOCLK select jumper Selects the AUDIOCLK signal of the SSI connector JP4 Motor power supply select jumper Selects motor drive power supply JP5 A RXD select jumper Selects functions for A RXD JP6 A TXD select jumper Selects functions for A TXD JP7 eMNC select jumper Controls the bus switch inserted between the eMMC and the RSK for RX64M CPU Board signals JP8 Analog input select jumper Select sound data input and RX64M ADC2 ADC3 input 3 2 1 1 AUDIOCLK Select Jumper JP1 JP1 selects a signal to input to the RX64M AUDIOCLK by using either the 12 288MHz oscillator output or the AK4642EN MCKO output Pin and 2 should be connected when using output from the 12 288MHz oscillator or pin 2 and 3 should be connected when using output from the MCKO signal Table 3 20 lists the Settings for AUDIOCLK Select Jumper JP1 Table 3 20 Settings for AUDIOCLK Select Jumper JP1 No Setting Function JP1 1 2 short Connects the 12 288MHz oscillator to the RX64M AUDIOCLK 2 3 short Connects the AK4642EN MCKO output to the RX64M AUDIOCLK Note
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