Rev 2.20 Revision Date: Jul 21, 2015
Renesas Electronics America
www.renesas.com
YLCDRZA1H HIGH RESOLUTION EMBEDDED GUI SOLUTIONS KIT
TECHNICAL REFERENCE MANUAL
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Disclaimer By using this Renesas YLCDRZA1H, the user accepts the following terms. The YLCDRZA1H is not guaranteed to be error free, and the entire risk as to the results and performance of the YLCDRZA1H is assumed by the User. The YLCDRZA1H is provided by Renesas on an “as is” basis without warranty of any kind whether express or implied, including but not limited to the implied warranties of satisfactory quality, fitness for a particular purpose, title and non- infringement of intellectual property rights with regard to the YLCDRZA1H. Renesas expressly disclaims all such warranties. Renesas or its affiliates shall in no event be liable for any loss of profit, loss of data, loss of contract, loss of business, damage to reputation or goodwill, any economic loss, any reprogramming or recall costs (whether the foregoing losses are direct or indirect) nor shall Renesas or its affiliates be liable for any other direct or indirect special, incidental or consequential damages arising out of or in relation to the use of this YLCDRZA1H, even if Renesas or its affiliates have been advised of the possibility of such damages.
Precautions
This Renesas YLCDRZA1H is only intended for use in a laboratory environment under ambient temperature and humidity conditions. A safe separation distance should be used between this and sensitive equipment. Its use outside the laboratory, classroom, study area or similar such area invalidates conformity with the protection requirements of the Electromagnetic Compatibility Directive and could lead to prosecution.
The product generates, uses, and can radiate radio frequency energy and may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment causes harmful interference to radio or television reception, which can be determined by turning the equipment off or on, you are encouraged to try to correct the interference by one or more of the following measures;
• Ensure attached cables do not lie across the equipment • Reorient the receiving antenna • Increase the distance between the equipment and the receiver • Connect the equipment into an outlet on a circuit different from that which the receiver is connected • Power down the equipment when not in use • Consult the dealer or an experienced radio/TV technician for help NOTE: It is recommended that
wherever possible shielded interface cables are used.
The product is potentially susceptible to certain EMC phenomena. To mitigate against them it is recommended that the following measures be undertaken;
• The user is advised that mobile phones should not be used within 10m of the product when in use. • The user is advised to take ESD precautions when handling the equipment.
The Renesas YLCDRZA1H does not represent and ideal reference design for an end product and does not fulfill the regulatory standards for an end product.
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Table of Contents Chapter 1 - Preface ...................................................................................................................................................... 1
Chapter 2 - Introduction and Purpose ......................................................................................................................... 2
2.1 - Hardware......................................................................................................................................................... 2
2.2 - Hardware Block Diagrams ............................................................................................................................... 3
2.3 - Box Contents ................................................................................................................................................... 4
2.4 - Software & Software Development Tools ....................................................................................................... 4
2.5 - Usage Models .................................................................................................................................................. 4
2.6 - Versions ........................................................................................................................................................... 5
Chapter 3 - Getting Started ......................................................................................................................................... 6
3.1 - Powering the YLCDRZA1H ............................................................................................................................... 6
3.2 - See the Demo .................................................................................................................................................. 6
3.3 - Connecting to the Segger J-Link On-Board Debugger ...................................................................................... 6
Chapter 4 – Specifications ........................................................................................................................................... 7
4.1 - DC Characteristics ........................................................................................................................................... 7
4.2 - AC Characteristics ............................................................................................................................................ 7
4.3 - Environmental Characteristics......................................................................................................................... 7
4.4 - Physical Characteristics ................................................................................................................................... 7
Chapter 5 - Power ....................................................................................................................................................... 8
5.1 - Main Power Subsystem ................................................................................................................................... 8
5.2 - 3.3V/1.8V Main Baseboard Power Subsystem ................................................................................................ 8
5.3 - LCD Backlight Power Subsystem...................................................................................................................... 8
5.4 - LCD Logic and Bias Subsystem ......................................................................................................................... 8
5.5 - USB Host Power Subsystem ............................................................................................................................ 9
5.6 - 3.3V/1.18V Module Power Subsystem ............................................................................................................ 9
Chapter 6 – Graphics Capacitive Touch LCD ............................................................................................................. 10
6.1 - LCD Interface ................................................................................................................................................. 10
6.2 - Capacitive Touch Controller .......................................................................................................................... 11
Chapter 7 – The MCU/Memory Module ................................................................................................................... 13
7.1 - Renesas RZ/A1 MCU ...................................................................................................................................... 13
7.2 - System Reset ................................................................................................................................................. 13
7.3 - MCU Boot Mode Selection ............................................................................................................................ 14
7.4 - 64Mbytes SDRAM ......................................................................................................................................... 14
7.5 - 64Mbytes Dual QSPI Serial NOR FLASH ......................................................................................................... 14
7.6 - On-Module Clocking ...................................................................................................................................... 14
7.7 - Spread Spectrum Clock Generator (SSCG) ..................................................................................................... 15
7.8 - EEPROM ........................................................................................................................................................ 15
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7.9 - Switches and LEDs ......................................................................................................................................... 15
Chapter 8 – Baseboard .............................................................................................................................................. 16
8.1 - Power ............................................................................................................................................................ 16
8.2 - Clocking ......................................................................................................................................................... 16
8.3 - LCD Connection and RGB888 to LVDS Translation ........................................................................................ 16
8.4 - e-MMC Memory ............................................................................................................................................ 16
8.5 - 10/100 Ethernet Port .................................................................................................................................... 17
8.6 - Audio Subsystem ........................................................................................................................................... 18
8.7 - Industrial Networking: CAN, RS232, RS485 ................................................................................................... 18
8.7.1 - RS232, RS433, and RS485 ....................................................................................................................... 19
8.7.2 - CAN ........................................................................................................................................................ 21
8.8 - SD Card Socket .............................................................................................................................................. 21
8.9 - USB Host and Device ..................................................................................................................................... 21
8.10 - Battery Backed Real Time Clock Calendar (RTCC) ........................................................................................ 22
8.11 - PMOD Port .................................................................................................................................................. 22
8.12 - Segger J-Link On-Board Debugger/Programmer ......................................................................................... 24
8.13 - Ambient Light Sensor .................................................................................................................................. 24
8.14 - Digital Video Camera ................................................................................................................................... 25
8.15 - Switches ...................................................................................................................................................... 25
8.16 - LEDs ............................................................................................................................................................. 26
8.17 - CryptoAuthentication .................................................................................................................................. 26
Chapter 9 – External Interrupt Summary .................................................................................................................. 27
Chapter 10 – I2C Device Summary ............................................................................................................................ 28
Chapter 11 – SPI Device Summary ............................................................................................................................ 29
Chapter 12 - Schematics & Bills of Materials ............................................................................................................. 31
12.1 - SO-DIMM Detail .......................................................................................................................................... 31
12.2 - RZ Module Schematics ................................................................................................................................ 35
12.3 - RZ Module BOM .......................................................................................................................................... 44
12.4 - Baseboard Schematics................................................................................................................................. 45
12.5 - Baseboard BOM .......................................................................................................................................... 59
Chapter 13 - Post Production Modifications ............................................................................................................... 62
13.1 – I/O Baseboard v2.0 ..................................................................................................................................... 62
Chapter 14 - Additional Information .......................................................................................................................... 63
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Chapter 1 - Preface Cautions
This document may be, wholly or partially, subject to change without notice.
All rights reserved. Duplication of this document, either in whole or part is prohibited without the written permission of Renesas Solutions Corporation.
Trademarks
*All brand or product names used in this manual are trademarks or registered trademarks of their respective companies or organizations.
Copyright © 2014 Renesas Electronics America, Inc. All rights reserved. © 2014 Renesas Electronics Europe Ltd. All rights reserved. © 2014 Renesas Electronics Corporation. All rights reserved. © 2014 Renesas Solutions Corporation. All rights reserved.
Website: http://www.renesas.com/
Glossary
CPU Central Processing Unit USB Universal Serial Bus GUI Graphical User Interface
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Chapter 2 - Introduction and Purpose The Renesas YLCDRZA1H High Resolution Embedded GUI Solution Kit is a flexible and full-featured Human Machine Interface plus communications platform based on the Renesas RZ/A1H Microcontroller. While production worthy, the YLCDRZA1H is primarily intended for software and hardware developers to experiment and evaluate the extensive I/O features of the RZA1H on the YLCDRZA1H prior to development of their own customized and focused hardware daughter-cards and/or add-on hardware adjacent to the host module.
The YLCDRZA1H contains several communications ports, including 10/100 Ethernet, CAN, RS232, and RS485, as well as the popular PMOD™ connectors for external prototyping modules from Digilent and other vendors.
Distributor inventory of Renesas products can be found here.
For more information on the Renesas YLCDRX63N Embedded GUI Solution Kit, visit the Renesas website.
2.1 - Hardware
The YLCDRZA1H has three main elements:
• a re-usable SO-DIMM style module (the “RZ Module”) with MCU, DRAM, FLASH, local power and clocks, • a full featured I/O baseboard, and, • a high resolution 1280x800 IPS LCD with LVDS 24-bit color interface and capacitive touch sensing.
These elements come pre-assembled in the YLCDRZA1H kit in an acrylic enclosure along with various cables, power supplies, and accessories.
The MCU/memory module (the “RZ Module”) in the kit includes: • Renesas RZ/A1H MCU with
o 10Mbytes on-chip RAM, 400MHz ARM Cortex™-A9 processor o 32-Kbyte L1 instruction cache, a 32-Kbyte L1 data cache, and a 128-Kbyte L2 cache o 10-Mbyte large-capacity on-chip high-speed RAM with parallel data/address paths o OpenVG*-compliant Renesas graphics accelerator with JPEG encoder/decoder, capture engine
unit, and pixel format converter
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• 64Mbytes DRAM • 64Mbytes Serial boot/XIP NOR FLASH in a dual-QSPI (x8) configuration • On-DIMM power supplies for all on-module circuits • 32.768kHz RTCC crystal and MCU clocks
The I/O Baseboard includes: • 4GBytes e-MMC intelligent NAND flash “drive on chip” • 9-25VDC barrel jack power input; standard 12V 10W EU/US wall adapter included in the kit • CAN plus RS232/RS485 port on a 3.5mm screw terminal plug connector • Digilent PMOD port with Type 2A (expanded SPI) and Type 4A (expanded UART) support • 10/100 Ethernet Port on standard RJ45 CAT5/6 jack with dual indicator LEDs • Stereo Audio with Dual 1W speakers, line in, line out, headset-style headphone out/microphone in • Color VGA forward facing digital video camera • SD Card socket (SDIO) • High Speed USB 2.0 Host and Device ports • Coin-cell battery-backed real time clock • 0 to 50°C operating temperature range • Segger J-Link On Board programmer/debugger • Ambient light sensor, reset button, power indicator LED
2.2 - Hardware Block Diagrams The RZ Module conceptually is structured as follows:
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The baseboard incorporates the module as follows:
2.3 - Box Contents The following items are included in the YLCDRZA1H package:
• YLCDRZA1H assembly, including I/O baseboard, LCD display, and RZ module, camera in an acrylic demo enclosure with adhesive silicone feet
• 9-25VDC US/EU Wall Power Supply • 8 pin screw terminal plug for CAN/RS232/RS485 port • Ethernet cable (1) and USB Micro B cables (2)
2.4 - Software & Software Development Tools Renesas and their Platinum Partners, including Serious Integrated and Express Logic have developed numerous example projects demonstrating the various features of the YLCDRZA1H. Visit the Renesas website for more information.
Development for the YLCDRZA1H is supported under the Renesas e2Studio Eclipse-based framework, ARM® DS-5 Development Studio, as well as the IAR Embedded Workbench. No-cost fully-unlocked GNU C development tools from Renesas are available, as well as professional and fully-supported tools from IAR.
2.5 - Usage Models The YLCDRZA1H is designed as an initial hardware reference platform as well as software development platform for OEM applications not only requiring sophisticated LCD-based GUI Human Machine Interface (HMI) capabilities but also extensive communications. The platform has little to no GPIO control on-board, and generally will be used in conjunction with an OEM’s I/O subsystem, possibly communicating with the YLCDRZA1H over RS232, RS485, or UART/SPI using the PMOD connectivity.
For more extensive GPIO connectivity, more flexible port assignments and experimentation with MCU features, the complete Renesas RZ/A1H Development Kit YR0K77210S003BE is recommended.
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2.6 - Versions The production version of the MCU/Memory module is v2.0 as marked on the module silk screen. All units in circulation should have this version.
Two versions of the Baseboard have been distributed, marked v2.0 and v2.1 on the silk screen respectively. The v2.1 Baseboard has two notable changes from v2.0:
1) The USBH Power Enable, hardwired to “always on” in v2.0, is now connected through an inverter to P1.6. On power up, the USBH power delivery is disabled. When the port pin is asserted low, the inverted (active high) signal enables the USBH Power subsystem.
2) Improved USB signal routing/integrity for more reliable High Speed operation
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Chapter 3 - Getting Started The YLCDRZA1H assembly comes pre-assembled, and requires no initial assembly to operate out of the box.
Some elements, such as the LCD to the top acrylic ring, are bonded with high performance adhesive: do not attempt to detach the LCD from the acrylic or disassemble any element not fastened by simple nylon screws.
The RZ Module comes pre-inserted into the SO-DIMM socket and fastened to the Baseboard via two screws. Only remove/install this module with the power completely removed.
3.1 - Powering the YLCDRZA1H The YLCDRZA1H can only be powered via the barrel jack, and can accept any input voltage from 9 to 25VDC (center positive) power supply with 10W or more capability; the kit comes with a standard UL/CSA/CE 12V 10W adapter with both an EU and US capability more than sufficient to power the unit.
Plugging in the 12V adapter will light up the green LED near the barrel jack, confirming the board is powered. The RZ Module also has a local green power LED showing that it, too, is powered. The Baseboard LED near the barrel jack may flash orange – this is the Segger J-Link debugger activity notification.
3.2 - See the Demo A demo, pre-installed in the RZ Module’s serial FLASH, will start up when the module is first powered. If during the course of software development this demo is erased from the serial FLASH you can download this demo from the Renesas website and re-install it using your software development tools and the on-board Segger J-Link On-Board debugger.
3.3 - Connecting to the Segger J-Link On-Board Debugger The kit comes with two (2) USB Micro B cables suitable for connecting a PC to the YLCDRZA1H. Use one of these to connect to the USB Micro connector J9 near the power jack. This is your debugger connection, and is only required when doing software development with the YLCDRZA1H.
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Chapter 4 – Specifications
4.1 - DC Characteristics The DC characteristics of the I/O elements of the platform are governed by the underlying AC timing characteristics of the individual components. Consult the bill of materials and component data sheets for more information.
Specification Permissible
Minimum Typical Maximum Unit Input Voltage to Barrel Jack 9 12 25 VDC Input Power to Barrel Jack 10 W
4.2 - AC Characteristics The AC timing characteristics at the module level are governed by the underlying AC timing characteristics of the individual components. Consult the bill of materials and component data sheets for more information.
4.3 - Environmental Characteristics The YLCDRZA1H, while designed with production-worthy methods and components, is not designed as a production unit to be used direction in OEM equipment. Contact Renesas for a list of hardware design partners who can develop and deliver production-ready platforms based on the ingredients used in the YLCDRZA1H kit.
Specification Permissible Minimum Typical Maximum Unit
Operating Temperature 0 50 C Storage Temperature -20 60 C Humidity (Non-condensing) 90%@50C RH
4.4 - Physical Characteristics The outer dimensions of the YLCDRZA1H, with acrylic enclosure, are approximately 207mm x 53mm x 33mm.
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Chapter 5 - Power The YLCDRZA1H has 6 different power subsystems on board:
• Baseboard Power: o Main power input 9-25VDC in, 5VDC out 2A buck switcher o 3.3V/1.8V buck switcher for Baseboard logic and I/O o LCD Backlight boost constant-current supply o LCD bias and drive voltage boost supplies o USB Host 150mA current-limited supply
• RZ Module Power o 3.3V/1.18V buck switcher for local RZ Module clocks, memory, and the MCU
Many of these may not be needed in your own derivative designs, but are included in the design so you can pick and choose depending on your specific requirements. A detailed discussion of each subsystem follows.
5.1 - Main Power Subsystem The YLCDRZA1H can accept 9-25VDC from the Switchcraft RASM712PX barrel jack. The jack is designed to accept an industry-standard 5.5mm OD/2.5mm ID barrel plug with positive center.
The two power signals +VIN and GND are connected downstream directly to the main buck converter which delivers 5VDC at up to 2A (via signal +5V) to the whole assembly for use by various subsystems and further regulation. No other circuits on the YLCDRZA1H use the 9-25VDC +VIN power signal.
The +5V power signal directly powers the green portion of the Baseboard tri-color LED. The red portion of that LED is driven by the Segger J-Link On Board activity indicator.
The +5V power signal is the only power delivered for use by the RZ Module, which has its own subsequent regulation on-module.
5.2 - 3.3V/1.8V Main Baseboard Power Subsystem Almost all the circuits on the Baseboard require 3.3 volts. The camera module and audio subsystem, in addition, both requires 1.8V. A dual buck switcher takes the +5V power signal and delivers 3.3V at up to 2A (+3V3) for most circuits on the board as well as 1.8V (+1V8) required by the audio subsystems.
5.3 - LCD Backlight Power Subsystem The LCD on the YLCDRZA1H is backlit by an array of LEDs. This array requires a constant current supply of 100 mA at approximately 12.8VDC. The ability to pulse width modulate (PWM) this supply is important to enable well-controlled backlight dimming, and the ability to turn off the backlight is important for power management – 100mA at 12.8V is approximately 1.3W of power, and factoring in the boost conversion efficiency approximately 1.6W of power from the input supply. Unlike other power systems where typical is normally much less than maximum, this is a typical number as the LEDs are actually run at this power.
The +5V main power signal feeds a constant current boost controller delivering this 100mA to the LCD backlight. A PWM-capable MCU port bit is connected to this controller’s ENABLE# pin:
MCU Schematic Operation Port Function Module # Baseboard P8.12 PWM1E P8_12/PWM1E-
BLEN 18 RZM-BLEN LCD Backlight Enable (active high)
5.4 - LCD Logic and Bias Subsystem As is common with most LCDs, the LCD panel in the kit requires a 3.3V supply. In this case, the 3.3V supply must be up to 300mA and is provided by the 5.2 - 3.3V/1.8V Main Baseboard Power Subsystem signal +3V3. This power supply is always on when the system is powered.
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LCD panels also need a variety of other voltages to drive the LCD active elements, and most small LCD panels have all the voltage converters internally in the panel to make the system designer’s life easy. As the panels increase in size, these voltages are often expected from the system rather than generated in the panel, especially for thin panels with minimal internal space. In addition to 3.3V, the panel on the YLCDRZA1H requires all these voltages to be supplied:
The Baseboard has a complete power generation subsystem for these other voltages. This subsystem is also always enabled when the system is powered.
5.5 - USB Host Power Subsystem While the USB host A connector could have been driven directly from +5V (or at least via a high-side FET power switch for enable control), the design incorporates a 150mA current limited design to ensure that an inappropriate high-load device does not crash the board or overstress the main power system. At currents above 150mA, the voltage on the output to the connector drops precipitously to limit the current.
MCU Schematic Operation Port Mode Module # Baseboard VBUSIN1 VBUSIN1 41 RZM-USBF_VBUS USB Device (“Function”) VBUS Detect P1.6 see below 1P1_6-USBH_5V_EN#
132 RZM-USBH_5V_EN# USB Host VBUS Power Out Enable (active low)
VBUSIN0 VBUSIN0 43 RZM-USBH_VBUS USB Host VBUS Detect P1.12 TINT20/GPI P1_12/TINT20-USBH_OC 56 RZM_USBH_OC# USB Host VBUS Overcurrent Detect (active low)
On v2.0 units, P1.6 was incorrectly used to drive the USB Host Power Enable (RZM-USBH_5V_EN on the RZ Module; DIMM pin 132). This port is open drain only on the MCU, and is incapable of driving high and enabling the power supply. All v2.0 units should include a post-production modification connecting U21 pin 7 (ENUSB) to U21 pin 8 (FAULT#) to enable the USB supply during all non-overcurrent situations. Version 2.1 units have an inverter with input pull-up added to this path. In this configuration, the RESET# condition disables the USB Host Power Enable, and asserting P1_6 low enables the USB Host Power. Software intending on using the USB Host Power Subsystem needs to accommodate both the v2.0 with post-production modification as well as the v2.1 units, since in the former case the USBH_5V_EN# pin should not be driven low and in the latter, driving it low is required to enable USB Host power. During driver initialization, perform the following sequence to determine a v2.0 vs. v2.1 baseboard:
Set USBH_5V_EN# to low USBH_EnableValue = inverse of read value of USBH_OC#
On v2.1, setting USBH_5V_EN# low will drive the enable high (via the inverter); assuming a non-overcurrent situation immediately after the enable the read value of OC# will be high, indicating a 2.1 board. On v2.0, setting USBH_5V_EN# low drive the enable low (no inverter), which since pin 7 & 8 are tied together, we’ll see an overcurrent active (low) as well, indicating a 2.0 board. Use the inverted value of the OC# test read from now on in the driver to enable or disable the USB Host Power subsystem.
5.6 - 3.3V/1.18V Module Power Subsystem The RZ Module is powered by the +5V power signal from the Baseboard. The MCU, memory, and clocks on the module require 3.3V and the MCU requires 1.18V for its core voltage. The RZ Module contains a dual 5V in dual output 3.3/1.18V buck switcher that delivers the voltages exclusively for the module’s usage as module schematic signals +3V3 and +1V18 respectively. These are not joined with any power signals on the Baseboard except by sharing a common system ground.
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Chapter 6 – Graphics Capacitive Touch LCD One of the most important features of the YLCDRZA1H is the high resolution LCD graphic color display with the following characteristics:
• 1280x800 pixel resolution • In Plane Switching (IPS) technology for excellent visibility at nearly any viewing angle • Integrated capacitive touch controller • 24-bit color Low Voltage Differential Signaling (LVDS) interface
6.1 - LCD Interface Lower resolution displays, typically at and below 800x480 (WVGA), use parallel RGB (red green blue) interfaces, for example 8 bits for red, 8 for blue, and 8 for green over a 24-bit wide cable to the LCD along with other control signals such as clock, data enable, vertical, and horizontal sync. The RZ/A1H has a built-in RGB LCD interface capable of driving such displays at 16, 18, or 24 bits wide for RGB565 (65,536 color), RGB666 (262,144 color), or RGB888 (16M color) support respectively.
As pixel resolutions increase, the electrical noise generated and routing challenges due to wide high speed parallel buses over the 3-10” cable to the LCD become problematic and a few Low Voltage Differential Signal (LVDS) channels are used where each color (red, green, blue) along with and the control signals are encoded and serialized, often resulting in an 8 signal cable (4 differential pairs). The Renesas RZ/A1H MCU, in addition to its 24-bit RGB interface, also has an 18-bit color LVDS interface.
The MCU’s LVDS interface is very well suited to many high-resolution OEM applications. It is very cost effective, requiring smaller cables and connectors than parallel RGB and is natively supported by the MCU with minimal external components beyond a few impedance matching resistors.
For lower resolution applications, typically 800x480 and below, the RGB interface is an excellent solution.
In order to fully highlight the capabilities of the MCU’s graphics controller, the YLCDRZAH1 uses the full 24-bit color RGB888 interface. However the LCD panel is an LVDS panel. The YLCDRZA1H Baseboard includes a low cost RGB888 to LVDS serializer to convert the signal format from the MCU to the LCD’s required timing/orientation:
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Both the MCU’s RGB and LVDS interfaces are fully exposed to the RZ Module’s edge fingers, however the LVDS signals are not connected or used on the YLCDRZA1H Baseboard. The RZ Module chapter describes the edge finger assignment. A baseboard could be designed that uses the RZ Module and employs the LVDS rather than RGB interface.
The LCD RGB data, control and power signals are wired on the YLCDRZA1H assembly as follows: MCU Schematic Operation
Port Function Module # Baseboard P8.12 PWM1E P8_12/PWM1E-BLEN 18 RZM-BLEN LCD Backlight Enable (active high) P3.0 LCD0_CLK P3_0/LCD_CLK 23 RZM-LCD_CLK Dot Clock P11.8 LCD0_TCON6 P11_8/LCD_DEN 3 RZM-LCD_DEN Data Enable P11.9 LCD0_TCON5 P11_9/LCD_VSYNC 5 RZM-LCD_VSYNC Vertical Sync P11.10 LCD0_TCON4 P11_10/LCD_HSYNC 8 RZM-LCD_HSYNC Horizontal Sync P11.7 LCD_DATA0 P11_7/LCD_DATA0 4 RZM-LCD_DATA0 Blue 0 (LSB) P11.6 LCD_DATA1 P11_6/LCD_DATA1 6 RZM-LCD_DATA1 Blue 1 P11.5 LCD_DATA2 P11_5/LCD_DATA2 199 RZM-LCD_DATA2 Blue 2 P11.4 LCD_DATA3 P11_4/LCD_DATA3 197 RZM-LCD_DATA3 Blue 3 P11.3 LCD_DATA4 P11_3/LCD_DATA4 177 RZM-LCD_DATA4 Blue 4 P11.2 LCD_DATA5 P11_2/LCD_DATA5 183 RZM-LCD_DATA5 Blue 5 P11.1 LCD_DATA6 P11_1/LCD_DATA6 175 RZM-LCD_DATA6 Blue 6 P11.7 LCD_DATA0 P11_7/LCD_DATA0 181 RZM-LCD_DATA7 Blue 7 (MSB) P4.0 LCD_DATA8 P4_0/LCD_DATA8 103 RZM-LCD_DATA8 Green 0 (LSB) P4.1 LCD_DATA9 P4_1/LCD_DATA9 66 RZM-LCD_DATA9 Green 1 P4.2 LCD_DATA10 P4_2/LCD_DATA10 68 RZM-LCD_DATA10 Green 2 P4.3 LCD_DATA11 P4_3/LCD_DATA11 70 RZM-LCD_DATA11 Green 3 P4.4 LCD_DATA12 P4_4/LCD_DATA12 105 RZM-LCD_DATA12 Green 4 P4.5 LCD_DATA13 P4_5/LCD_DATA13 78 RZM-LCD_DATA13 Green 5 P4.6 LCD_DATA14 P4_6/LCD_DATA14 82 RZM-LCD_DATA14 Green 6 P4.7 LCD_DATA15 P4_7/LCD_DATA15 111 RZM-LCD_DATA15 Green 7 (MSB) P5.0 LCD_DATA16 P5_0/LCD_DATA16 142 RZM-LCD_DATA16 Red 0 (LSB) P5.1 LCD_DATA17 P5_1/LCD_DATA17 144 RZM-LCD_DATA17 Red 1 P5.2 LCD_DATA18 P5_2/LCD_DATA18 154 RZM-LCD_DATA18 Red 2 P5.3 LCD_DATA19 P5_3/LCD_DATA19 156 RZM-LCD_DATA19 Red 3 P5.4 LCD_DATA20 P5_4/LCD_DATA20 148 RZM-LCD_DATA20 Red 4 P5.5 LCD_DATA21 P5_5/LCD_DATA21 150 RZM-LCD_DATA21 Red 5 P5.6 LCD_DATA22 P5_6/LCD_DATA22 160 RZM-LCD_DATA22 Red 6 P5.7 LCD_DATA23 P5_7/LCD_DATA23 162 RZM-LCD_DATA23 Red 7 (MSB)
6.2 - Capacitive Touch Controller The LCD on the YLCDRZA1H includes a capacitive touch sensor system and built-in Pixcir Tango C48 controller. The C48 has the following features:
• 400kHz I2C interface with activity interrupt out • 5 finger simultaneous multi-touch detection • Palm detection for lock function, and • <100 idle-to-active touch response time.
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The 7-bit I2C address of the C48 controller is 0x5C: Address I2C
Bus Max kHz Location Device 7-bit Read Write
0x5C 0xB9 0xB8 1 400 Baseboard Pixcir C48 Capacitive Touch Controller
Chapter 10 – I2C Device Summary lists all the I2C devices on the YLCRZA1H.
On system boot the controller is held in reset with a weak pull-up on the P8_13-TOUCH_RST signal and the driver should drive this signal low to enable the C48 to accept commands. The controller is connected as follows:
MCU Schematic Operation Port Function Module # Baseboard P8.13 GPIO P8_13-TOUCH_RST 7 RZM-TOUCH_RST LCD Touch controller reset (active high) P1.10 IRQ4 P1_10/IRQ4-TOUCH_IRQ 52 RZM-TOUCH_IRQ LCD Touch controller interrupt P1.2 SCL1 P1_2/SCL1 165 RZM-SCL1 Touch dedicated I2C1 Clock P1.3 SDA1 P1_3/SDA1 169 RZM-SDA1 Touch dedicated I2C1 Data
The Pixcir Tango C48 instruction set and data sheet are available only under non-disclosure agreement from Pixcir.
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Chapter 7 – The MCU/Memory Module As discussed, the YLCDRZA1H is comprised of two circuit boards, the Baseboard and the MCU/Memory module, or “RZ Module” that plugs into the Baseboard via a commodity 200 pin SO-DIMM socket. For a complete pin-out of the SO-DIMM socket, see Chapter 12.1 - SO-DIMM Detail.
The MCU/memory module (the “RZ Module”) in the kit includes:
• Renesas RZ/A1H MCU • 64Mbytes DRAM • 64Mbytes Serial boot/XIP NOR FLASH in a dual-
QSPI (x8) configuration • On-DIMM power supplies for all on-module circuits • 32.768kHz RTCC crystal and 12MHz MCU clock • 2kbit configuration/user EEPROM • On-module system reset
The local power supplies are fully described in Section 5.6 - 3.3V/1.18V Module Power Subsystem.
7.1 - Renesas RZ/A1 MCU The Renesas RZ/A1 MCU family has several members; the YLCDRZA1H uses the R7S721001VCBG with the following key features:
• 10Mbytes on-chip RAM, 400MHz ARM Cortex™-A9 processor • 32-Kbyte L1 instruction cache, a 32-Kbyte L1 data cache, and a 128-Kbyte L2 cache • 10-Mbyte large-capacity on-chip high-speed RAM with parallel data/address paths • OpenVG™-compliant Renesas graphics accelerator with JPEG encoder/decoder, capture engine unit, and
pixel format converter • SDRAM controller • 324 pin BGA
The MCU is fully described in the Renesas RZ/A1H Group User’s Manual: Hardware along with other documentation on the Renesas RZ/A1 Family Documentation Website.
7.2 - System Reset The RZ Module includes a small system reset chip, designed to not only reset the MCU but any attached baseboard if desired. On power-up, the system reset is asserted low for approximately 100-250mS and then is released to rise high with a simple pull-up resistor. Pushbutton S3 on the baseboard is connected directly to this reset signal – the reset chip automatically senses the pushbutton and, when pressed (RESET# grounded) debounces the switch and initiates a reset cycle as if power were being applied for the first time.
MCU Schematic Operation Port Function Module # Baseboard
RES RES RESET# 27 RZM-RESET# System Reset (open drain, active low) Also RESET Pushbutton S3 on Baseboard
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7.3 - MCU Boot Mode Selection The RZ/A1H MCU can boot from a variety of memory devices, selectable by the levels present on the MD_BOOT2/1/0 pins on the MCU when RES is de-asserted. The Baseboard includes a 4 element DIP Switch where switch 1 and 2 control MD_BOOT1/2 respectively.
Option Boot Mode YLCDRZA1H MD_BOOT2 MD_BOOT1 MD_BOOT0 # Description Support
- 0 0 0 CS0# RAM/ROM No - 1 0 1 CS1# RAM/ROM No 1 0 1 3 Serial FLASH Default 0 1 1 4 SD Card via Baseboard 1 1 1 5 e-MMC via Baseboard
On the YLDRZA1H, the BOOTMD2/1/0 pins have a default weakly strapped selection to the serial FLASH on the RZ Module (since the module has the serial FLASH populated), but the boot mode can be changed on the Baseboard through DIP switch S1. The boot pins are controlled/connected as follows:
MCU Schematic Operation Port Function Module # Baseboard
P7.0 MD_BOOT2 P7_0/MD_BOOT2 179 RZM-BOOT2 Weakly high (47kΩ) on RZ Module S1.2 pulls this low (GND) when ON
P0.1 MD_BOOT1 P0_1/MD_BOOT1 61 RZM-BOOT1 Weakly low (47kΩ) on RZ Module S1.1 pulls this high (4.7kΩ) when ON
P0.0 MD_BOOT0 P0_0/MD_BOOT0 - - Permanently high on RZ Module
7.4 - 64Mbytes SDRAM The Renesas RZ/A1H MCU has a full on-chip 16-bit SDRAM controller. The YLCDRZA1H RZ Module has this SDRAM connection (address, data, control) isolated on the module connected to two (2) Micron 32MByte SDRAM devices for a total of 64MBytes of system DRAM.
7.5 - 64Mbytes Dual QSPI Serial NOR FLASH The Renesas RZ/A1H MCU supports two (2) parallel Quad SPI (QSPI) interfaces designed for direct-attach to Serial NOR FLASH devices. In this configuration, the MCU can boot from the primary device in single-SPI traditional 4-wire (MISO, MOSI, SCLK, SSL#) mode and software can switch access modes such that both devices are accessed simultaneously in QSPI mode for an equivalent 8-bit wide interface at very high speed.
Not only can the MCU access these devices as data storage areas, but it can also execute in place (XIP) from the devices at surprisingly high speeds – the MCU’s SPI Multi I/O Bus Controller handles all the SPI traffic and FLASH commands to make the devices completely memory mapped and accessible as if it were on a traditional address/data bus.
The YLCDRZA1H features two Micron N25Q256A13EF840E NOR Serial FLASH devices with 32Mbytes each, totaling 64Mbytes connected in the Dual QSPI configuration.
7.6 - On-Module Clocking On the RZ Module there are two local clocks for use by the MCU. A simple 32.768 kHz tuning fork crystal is attached to the MCU to drive the on-chip Real Time Clock Calendar (RTCC). There is no VBAT battery backup capability on the chip, so this oscillator must be re-enabled at each MCU reset. The YLCDRZA1H has an I2C Battery Backed RTCC chip with coin cell for this purpose, and on system reset software can retrieve the battery-backed date/time from the external RTCC and load the internal RTCC for quick software access at runtime.
While the MCU can operate with as little as a single 12MHz oscillator for the core, USB, and peripherals, to fully exploit the capabilities of the MCU a variety of input clocks are desirable:
• 13.3333MHz to enable the core at 400MHz • 27.0MHz for video
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• 24.576MHz to deliver industry standard audio frequencies • 48.000MHz for USB
The RZ Module includes a complete clock oscillator/synthesizer subsystem generating and delivering all four of these frequencies to the MCU. These are not crystals but rather external clock sources to the MCU therefore software should not turn on the crystal oscillator drivers for these clock inputs.
The clock synthesizer/generator is a Silicon Labs Si5351C. At power-up, the device is factory programmed for the frequencies listed above, but the Si5351C is an I2C device and the generated frequencies can be modified at runtime if desired. Whether for EMI tuning, power management, or, for example, to change the input frequencies for different audio sampling/generation time bases beyond the capabilities of the MCU’s programmable prescaler, this feature can be valuable in many system designs.
The Si5351C is available on the I2C bus 0 as device number 0x60: Address I2C
Bus Max kHz Location Device 7-bit Read Write
0x60 0xC1 0xC0 0 400 Module Si5351C Clock Synthesizer
Chapter 10 – I2C Device Summary lists all the I2C devices on the YLCRZA1H.
The interrupt output (INTR) of the Si5351C is not connected to the MCU.
7.7 - Spread Spectrum Clock Generator (SSCG) The Renesas RZ/A1H MCU has the ability to slightly and randomly modulate the internal PLLs to dampen potential and undesirable RF emissions. This feature is controlled by the MCU’s MD_CLKS pin, which is weakly (47kΩ) pulled low (disabled) on the RZ Module. The Baseboard DIP Switch S1 position 3 (when ON) strongly (4.7kΩ) pulls this high and enables this feature on the MCU.
MCU Schematic Operation Port Function Module # Baseboard
P0.3 MD_CLKS/GPIO P0_3/MD_CLKS 176 RZM-SSCG
Enables Spread Spectrum Clocking in MCU by Baseboard S1.2 (ON/active GND,OFF pulled high (4.7kΩ) on RZ Baseboard)
Note this pin is sampled on the release of system reset, after which a different Baseboard design could optionally use this signal for a GPIO or other function at runtime.
7.8 - EEPROM On the MCU/Memory module is a small I2C EEPROM, an On Semiconductor CAT34C02, located on I2C bus 0 at 7-bit address 0x57:
Address I2C Bus
Max kHz Location Device 7-bit Read Write
0x57 0xAD 0xAC 0 400 Module CAT34C02 EEPROM
Chapter 10 – I2C Device Summary lists all the I2C devices on the YLCRZA1H.
7.9 - Switches and LEDs The MCU/Memory module has a single dual-color red and green LED that can be turned on independently and when both are on simultaneously the LED appears orange. The green LED is powered automatically when the local 3.3V power is present. The red LED is controlled by a processor GPIO for software use:
MCU Schematic Operation Port Function Module # Baseboard P11.11 GPO P11_11-LED1R Module LED Red (active high)
There are no other switches, jumpers or other user I/O on the module.
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Chapter 8 – Baseboard The I/O Baseboard included with the YLCDRZA1H includes:
• 9-25VDC barrel jack power input with 5V 2A DC-DC converter for Baseboard and RZ Module • All local power supplies and clocks • RGB888 to LVDS translator and connection to LVDS LCD • Connection to the 4GBytes e-MMC intelligent NAND flash “drive on chip” • CAN plus RS232/RS485 port on a 3.5mm screw terminal plug connector • 10/100 Ethernet Port on standard RJ45 CAT5/6 jack with dual indicator LEDs • Stereo Audio with Dual 1W speakers, line in, line out, headset-style headphone out/microphone in • Color VGA forward facing digital video camera • SD Card socket (SDIO) • High Speed USB 2.0 Host and Device ports • Coin-cell battery-backed real time clock • Digilent PMOD* port with Type 2A (expanded SPI) and Type 4A (expanded UART) support • Segger J-Link On Board programmer/debugger • User I/O including ambient light sensor, user and reset pushbuttons, user and power LEDs
8.1 - Power The YLCDRZA1H’s Baseboard has 5 different power subsystems:
• Main power input 9-25VDC in, 5VDC out 2A buck switcher • 3.3V/1.8V buck switcher for Baseboard logic and I/O • LCD Backlight boost constant-current supply • LCD bias and drive voltage boost supplies • USB Host 150mA current-limited supply
These are all described in Chapter 5 - Power.
8.2 - Clocking There are several clock sources generated and used on the Baseboard for various peripherals.
• 32,768 kHz crystal for the Battery Backed Real Time Clock Calendar (RTCC) • 25.000 MHz oscillator for the 10/100 Ethernet Port • 24.000 MHz oscillator for the Digital Video Camera • Audio clock generated in the RZ MCU on the RZ Module for the Audio Subsystem
8.3 - LCD Connection and RGB888 to LVDS Translation As mentioned above, even though the RZ/A1H has an 18-bit color LVDS port native on the MCU (and brought to the connector for optional use by a baseboard), the YLCDRZA1H elects to feature the full 24-bit color capabilities of the RZ/A1H and use the RGB888 port instead.
The LCD display, however, is LVDS. Therefore the baseboard includes a straightforward and inexpensive RBG888 to LVDS translator.
This interface, including MCU signals and connector pins, are described in detail in Chapter 6.1 - LCD Interface
8.4 - e-MMC Memory In addition to the memory on the RZ Module, the Baseboard adds a 4 Gigabyte “embedded MultiMedia Card” or e-MMC. This is a complete FLASH drive-on-a-chip, with built in wear levelling, bad block management, and more. Software drivers are greatly simplified compared with using NAND FLASH directly. The Micron MTFC4GMDEA-4M
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is an e-MMC v4.41 compatible device; for more information about the e-MMC specification see the JEDEC MMC Specification.
Normally, the e-MMC will be used by a software application to run a file system, such as a FAT file system, storing GUI data and other files, possibly including applications and demos.
The RZ/A1H MCU has a built-in MMC controller, and the e-MMC chip is connected as follows: MCU Schematic Operation
Port Function Module # Baseboard P0.4 GPO P0_4-MMC_RST# 31 RZM-MMC_RST MMC Reset (active low with pull-up) P3.13 MMC_CMD P3_13/MMC_CMD 97 RZM-MMC_CMD MMC Command/response P3.12 MMC_CLK P3_12/MMC_CLK 91 RZM-MMC_CLK MMC clock P3.11 MMC_D0 P3_11/MMC_D0 93 RZM-MMC_D0 e-MMC Data Bus D0 (LSB) P3.10 MMC_D1 P3_10/MMC_D1 89 RZM-MMC_D1 e-MMC Data Bus D1 P3.15 MMC_D2 P3_15/MMC_D2 99 RZM-MMC_D2 e-MMC Data Bus D2 P3.14 MMC_D3 P3_14/MMC_D3 64 RZM-MMC_D3 e-MMC Data Bus D3 P11.12 MMC_D4 P11_12/MMC_D4 187 RZM-MMC_D4 e-MMC Data Bus D4 P11.13 MMC_D5 P11_13/MMC_D5 191 RZM-MMC_D5 e-MMC Data Bus D5 P11.14 MMC_D6 P11_14/MMC_D6 185 RZM-MMC_D6 e-MMC Data Bus D6 P11.15 MMC_D7 P11_15/MMC_D7 193 RZM-MMC_D7 e-MMC Data Bus D7 (MSB)
With 8.16 - DIP Switch S1 set in the correct position and the e-MMC carefully partitioned and programmed, the YLCDRZA1H is capable of booting directly from this device.
8.5 - 10/100 Ethernet Port The RZ/A1H has a full 10/100 Ethernet MAC with MII interface. The RZ Module brings these signals to the edge connector, and the YLCDRZA1H Baseboard delivers these signals interface through a Micrel KSZ8081MNX MII PHY to a standard RJ45 jack.
The MII interface is as follows: MCU Schematic Operation
Port Function Module # Baseboard P0.5 GPO P0_5-ET_RESET# 29 RZM-ET_RESET# Holds PHY in reset (active low) P1.5 IRQ5 P1_5/IRQ5-ET_IRQ 171 RZM-ET_IRQ PHY Interrupt (active low) P3.3 MDIO P3_3/ET_MDIO 21 RZM-ET_MDIO Management data I/O P5.9 MDC P5_9/ET_MDC 168 RZM-ET_MDC Management data clock P1.14 COL P1_14/ET_COL 58 RZM-ET_COL Collision detection P2.3 CRS P2_3/ET_CRS 121 RZM-ET_CRS Carrier detection P3.6 RXDV P3_6/ET_RXDV 28 RZM-ET_RXDV Receive data valid P3.5 RXER P3_5/ET_RXER 36 RZM-ET_RXER Receive error P3.4 RXCLK P3_4/ET_RXCLK 40 RZM-ET_RXCLK Receive clock P2.8 RXD[0] P2_8/ET_RXD0 137 RZM-ET_RXD0 Receive data 0 (LSB) P2.9 RXD[1] P2_9/ET_RXD1 118 RZM-ET_RXD1 Receive data 1 P2.10 RXD[2] P2_10/ET_RXD2 122 RZM-ET_RXD2 Receive data 2 P2.11 RXD[3] P2_11/ET_RXD3 131 RZM-ET_RXD3 Receive data 3 (MSB) P2.0 TXCLK P2_0/ET_TXCLK 80 RZM-ET_TXCLK Transmit clock P2.1 P2.1/ET_TXER P2_1/ET_TXER 86 RZM-ET_TXER Transmit Error or GPIO (unused on Baseboard) P2.2 TXEN P2_2/ET_TXEN 104 RZM-ET_TXEN Transmit enable P2.4 TXD[0] P2_4/ET_TXD0 129 RZM-ET_TXD0 Transmit data 0 (LSB) P2.5 TXD[1] P2_5/ET_TXD1 110 RZM-ET_TXD1 Transmit data 1
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P2.6 TXD[2] P2_6/ET_TXD2 135 RZM-ET_TXD2 Transmit data 2 P2.7 TXD[3] P2_7/ET_TXD3 120 RZM-ET_TXD3 Transmit data 3 (MSB)
In order to use the Ethernet interface, a globally unique 48-bit MAC address is required. Most companies purchase batches of thousands of these to assign to their devices. To simplify the demonstration of the YLCDRZA1H, the Baseboard includes a tiny I2C chip, the Microchip 24AA02E48T, which contains a single unique MAC address that software can retrieve and use for the board:
Address I2C Bus
Max kHz Location Device 7-bit Read Write
0x50 0xA1 0xA0 0 400 Baseboard 24AA02E48T EEPROM/MAC Address
8.6 - Audio Subsystem One of the features of the Renesas RZ/A1 family is extensive support for external audio codecs for audio input/output. The YLCDRZA1H highlights this capability using the Maxim MAX98089ETN+ Audio Codec/Amplifier, exposing:
• stereo line in jack (blue) • stereo line out jack (green) • stereo headphone and microphone mobile phone headset-style jack (black) • stereo amplified bass-enhanced “B-Bass” speakers from BeStar
The codec is connected to the high performance full-duplex Serial Sound Interface (SSI) on the RZ MCU as follows:
MCU Schematic Operation Port Function Module # Baseboard CLKAUDIO_24MHZ 67 RZM-AUDIO_CLK 24MHz Base Codec Clock from RZ Module P1.9 IRQ3 P1_9/IRQ3-AUDIO_IRQ 63 RZM-AUDIO_IRQ Audio Codec Interrupt P10.12 SSICLK1 P10_12/SSISCK 108 RZM_SSISCK Serial Sound Interface Clock P10.13 SSIWS1 P10_13/SSIWS 133 RZM_SSIWS Serial Sound Word Select P10.15 SSITxD1 P10_15/SSITxD 112 RZM_SSITxD Serial Sound Transmit Data (output) P10.14 SSIRxD1 P10_14/SSIRxD 116 RZM_SSIRxD Serial Sound Receive Data (input)
The Maxim codec is an I2C controlled device, appearing on I2C Bus 0 at 7-bit I2C address 0x20: Address I2C
Bus Max kHz Location Device 7-bit Read Write
0x10 0x21 0x20 0 400 Baseboard MAX98089ETN+ Audio Codec/Amplifier
8.7 - Industrial Networking: CAN, RS232, RS485 The large green 3.5mm connector J13 delivers RS232, RS422, or RS485 as well as high performance CAN to external industrial networks. A screw terminal plug is supplied, enabling easy wiring of termination or daisy chained cabling. The connector’s signals are clearly marked on the Baseboard PCB as follows:
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Pin Name Description 1 No connection 2 GND Ground 3 RS485_A Receive non-inverting input 4 RS485_B Receive inverting input 5 RS485_X Transmit non-inverting output 6 RS485_Y Transmit inverting output 7 CANH CAN Transmit/Receive H 8 CANL CAN Transmit/Receive L
There is no termination facility on the YLCDRZA1H; if cable termination is required insert a 75 ohm resistor across the appropriate signals at the screw-in connector.
Note that two additional UARTs and an additional CAN port are available on the PMOD Port; only one of those UARTs is in a standard Digilent PMOD configuration however it is possible to create custom non-standard PMODs for that port and access these extra serial interfaces.
8.7.1 - RS232, RS433, and RS485 The YLCDRZA1H employs an Intersil ISL41387IRZ-T multi-protocol transceiver has the following key features:
• Selectable RS232 or RS485/RS422 • ±15kV (HBM) ESD protected • Single ended or differential • Half or full duplex • Large (2.7V) differential VOUT for improved noise immunity in RS485/RS422 networks • Full failsafe (open/short) RX in RS485/RS422 mode • RS232 transmit rates up to 650kbps, receive rates to 2mbps • RS485/RS422 data rates up to 20Mbps • RS485/RS422 slew rate limit options for 460kbps and 115kbps
It is an excellent choice for many RS485 point-to-point and multi-drop networks and works particularly well in many industrial PLC configurations. The dual mode support enables, via the S4 DIP switch, RS232 instead of RS485 levels. Only one mode (RS232 or RS422/485) can be supported at any given time, and the mode is not software selectable – it is assumed that the installation process and environment determines which transmission standard is being connected.
The transceiver is connected to the MCU’s UART as follows: MCU Schematic Operation
Port Function Module # Baseboard P8.10 GPO P8_10/RS_DEN 11 RZM-RS_DEN Transmit Drive Enable (active high) P8.11 GPO P8_11/RS_ON 9 RZM-RS_ON Transceiver Enable (active high) P3.1 TxD2 P3_1/UART_TX 25 RZM_UART_TX Transmit Data P3.2 RxD2 P3_2/UART_RX 15 RZM-UART_RX Receive Data
The DIP Switch S4 enables a variety of features on this port. The legend on the Baseboard PCB can help with these settings.
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RS232 or RS422/RS485 Mode
DIP switch S4.3 controls which standard the transceiver conforms to; setting this switch ON puts the transceiver in RS232 level mode; the switch OFF puts the transceiver in RS422/RS485 mode.
Slew Rate and Speed Limiting (RS422/RS485 only)
In RS422/485 mode, DIP switch S4.1 and S4.2 control the slew rate and speed limits respectively. Set these switches as slow as possible but adequate for the target network rate according to the table.
RSXXX Half/Full Duplex Selection
The RSXXX port can operate in full duplex mode where data can be independently and simultaneously flowing in the receive and out the transmit pins. It can also be configured to operate in half duplex mode where input/output data is often carried on the same wire(s) and the directionality takes turns.
The main difference between the modes lies in how the transmit and receive enable of the transceiver are configured and used. In full duplex mode, the transceiver receive data is always enabled and being processed by the RZ MCU. In half duplex mode, the receive data is only valid when not transmitting – this avoids receive MCU algorithms from “seeing” the same data that they send if the network shares the same wires for transmit and receive. Full duplex mode always implies separate network wires for transmit and receive. Even then, you may not want to always have your transmitter enabled – there are many custom networks where the “master” in a network owns one network wire (or pair in differential mode) and can broadcast at any time to the “slaves” whereas the slaves must share the return line according to some convention to avoid collisions.
Given the many possible combinations on custom networks, there are two key elements that need to be addressed:
1. Is the receiver always on, delivering data to the MCU’s UART all the time, or is the network wiring half duplex and the receiver disabled during transmission to avoid “seeing your own packets”?
2. Is the transmitter always on, or must it be only turned on when the UART transmits on the network?
Receive Enable: Full and Half Duplex Selection
DIP switch S4.4 controls how the RSXXX transceiver’s receiver is enabled. When S4.4 is OFF (full duplex mode), a weak pull-up on the RSXXX transceiver’s RXEN pin ensures that by default the RSXXX transceiver’s receiver is always enabled and delivering data to the MCU.
When S4.4 is ON (half duplex mode), the RSXXX transceiver’s RXEN pin is connected to GND. In this mode, the RSXXX transceiver’s receive enable is controlled by its RXEN# which is connected to the opposite polarity DEN (drive enable) pin. In this configuration, whenever the transmitter is enabled, the receiver is disabled and the receive data “marks idle” with a weak pull-up.
Transmit Enable
The transceiver’s transmit drive enable (DEN) pin (when asserted/high) turns on the output drivers on the transceiver and presents UART transmit data onto the network. To avoid any network glitches on power-up, this is always held low (inactive) until the MCU explicitly asserts this signal active/high.
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8.7.2 - CAN
The CAN transceiver on the YLCDRZA1H Baseboard is implemented with an Infineon IFX1050GVIO or similar device with the following specifications: CAN data transmission rate up to 1 Mbaud Suitable for 12V and 24V network applications Excellent EMC performance (very high immunity and very low emission) ISO/DIS 11898 compatible
The transceiver is connected to the MCU’s CAN1 port as follows: MCU Schematic Operation
Port Function Module # Baseboard P5.10 CAN1TX P5_10/CAN1TX 170 RZM-CANTX CAN Transmit Data P1.4 CAN1RX P1_4/CAN1RX 134 RZM_CANRX CAN Receive Data
8.8 - SD Card Socket The full sized SD Card socket on the Baseboard is connected directly to the MCU via the Renesas RZ/A1H’s built-in SD Card controller, channel 0:
MCU Schematic Operation Port Function Module # Baseboard P4.13 SD_CMD_0 P4_13/SD_CMD 98 RZM-SD_CMD SD Command/Response P4.12 SD_CLK_0 P4_12/SD_CLK 96 RZM-SD_CLK SD Clock P4.8 SD_CD_0 P4_8/SD_CD 115 RZM-SD_CD SD Card Detect (active low, pulled high) P4.9 SD_WP_0 P4_9/SD_WP 84 RZM-SD_WP SD Write Protect (active low, pulled high) P4.11 SD_D0_0 P4_11/SD_D0 119 RZM-SD_D0 SD Data Bus D0 (LSB) P4.10 SD_D1_0 P4_10/SD_D1 92 RZM-SD_D1 SD Data Bus D1 P4.15 SD_D2_0 P4_15/SD_D2 106 RZM-SD_D2 SD Data Bus D2 P4.14 SD_D3_0 P4_14/SD_D3 123 RZM-SD_D3 SD Data Bus D3 (MSB)
With 8.16 - DIP Switch S1 set in the correct position, and an SD Card correctly formatted inserted in the SD Card socket, the YLCDRZA1H is capable of booting directly from this device.
8.9 - USB Host and Device The Renesas RZ/A1H MCU features independent USB 2.0 host and USB 2.0 device (or “function”) ports, both capable of 480mbps data rates.
The USB Device port is exposed via a standard USB Micro B connector on the YLCDRZA1H Baseboard and is connected to the MCU as follows:
MCU Schematic Operation Port Function Module # Baseboard
VBUSIN1 VBUSIN1 41 RZM-USBF_VBUS USB Device (“Function”) VBUS Detect DP_0 USBF_P 37 RZM-USBF_P USB Device (“Function”) D+ DP_1 USBF_N 35 RZM-USBF_N USB Device (“Function”) D-
The USB host port is exposed via a standard USB A connector on the YLCDRZA1H Baseboard, and is current limited to 150mA to prevent inappropriately large current devices from affecting the operation of the YLCDRZA1H system. See Chapter 5.5 - USB Host Power Subsystem for more information. The port is connected to the MCU as follows:
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MCU Schematic Operation Port Function Module # Baseboard P1.6 1see note 1P1_6-USBH_5V_EN# 132 RZM-USBH_5V_EN# USB Host VBUS Power Out Enable (active low)
USBH_5V USB Host VBUS Power Out VBUSIN0 VBUSIN0 43 RZM-USBH_VBUS USB Host VBUS Detect
P1.12 TINT20/GPI P1_12/TINT20-USBH_OC 56 RZM_USBH_OC# USB Host VBUS Overcurrent Detect (active low) DP_1 USBH_P 47 RZM-USBH_P USB Host D+ DM_1 USBH_N 49 RZM-USBH_N USB Host D-
1on v2.0 units, P1.6 was incorrectly used to drive the USB Host Power Enable (RZM-USBH_5V_EN on the RZ Module; DIMM pin 132). This port is open drain only on the MCU, and is incapable of driving high and enabling the power supply. All v2.0 units should include a post-production modification connecting U21 pin 7 (ENUSB) to U21 pin 8 (FAULT#) to enable the USB supply during all non-overcurrent situations. Version 2.1 units have an inverter with input pull-up added to this path. In this configuration, the RESET# condition disables the USB Host Power Enable, and asserting P1_6 low enables the USB Host Power.
8.10 - Battery Backed Real Time Clock Calendar (RTCC) The Renesas RZ/A1H MCU has a built-in Real Time Clock Calendar (RTCC), and the RZ Module provides a 32.768 kHz dedicated crystal to enable precise timekeeping while power is connected. Often network connected , systems can fetch the current time from the network on boot and program the MCU’s RTCC to the correct time, which will be maintained for the duration of the powered session.
The Baseboard adds an extra feature: a separate lithium coin-cell backed I2C RTCC subsystem. The NXP PCF8523 RTCC requires less than a few hundred nano Amperes to operate and the small CR1025 3V 30mAH coin cell can keep the RTCC running for several years without replacement.
When replacing the battery, ensure correct orientation: the flat side (+) should be up and away from the PCB surface, and the rounded side (-) should be contacting the PCB surface.
The NXP RTCC is an I2C controlled device, appearing on I2C Bus 0 at 7-bit I2C address 0x68: Address I2C
Bus Max kHz Location Device 7-bit Read Write
0x68 0xD1 0xD0 0 1000 Baseboard PCF8523 Real Time Clock Calendar
Chapter 10 – I2C Device Summary lists all the I2C devices on the YLCRZA1H.
YLCDRZA1H v2.1 Baseboards have an additional R/C circuit on the main power input as recommended by NXP to improve battery to main power switchover.
8.11 - PMOD Port The YLCDRZA1H has one Digilent PMOD™ compatible 2x6 host port. It supports, depending on MCU configuration and software, one of these standard PMOD configurations:
• Type 1 - GPIO • Type 2 - SPI • Type 2A - Expanded SPI • Type 4 - UART without CTS/RTS flow control • Type 4A - Expanded UART without CTS/RTS flow control
For information on the PMOD convention, see the Digilent website, or read the PMOD standard.
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The PMOD port on the YLCDRZA1H also has some non-standard and unique features you can exploit with custom cards. Normally with PMOD mode 2/2A/4/4A support, you choose SPI or UART mode. The YLCDRZA1H’s PMOD offers the following choices:
• SPI (standard pin-out mode 2/2A) • UART (standard pin-out mode 4/4A) • UART + CAN (both non-standard pin-out) • UART + UART (one UART standard pin-out, one non-standard)
These ports do not have transceivers, are in addition and separate from the Industrial Networking: CAN, RS232, RS485 ports which have full transceivers on the Baseboard.
With custom PMOD-like cards, or a simple wire harness from the YLCDRZA1H’s PMOD connector, you can access this additional functionality. Contact Renesas for information about any example cards available.
Pay special attention to the pin order of the PMOD connectors: it is not the zigzag numbering convention normally used for headers. Incorrectly wiring to the PMOD connectors may damage your YLCDRZA1H or even other connected equipment.
The PMOD signals are 3.3V only. Do not connect 5V or higher signals, for example full-level RS232 signals, to this port directly. If, for example, a full-level RS232 port is desired the Digilent PMOD RS232X plugs into the connector and translates these voltages.
The PMOD connector signals are connected throughout the YLCDRZA1H as follows; the PMOD pin numbers are per the PMOD (non-zigzag) specification:
MCU Schematic PMOD Operation Port Function Module # Baseboard Pin +3V3 12 +3.3V to PMOD GND 11 System GND 10 NC 9 NC P3.7 GPIO P3_7-PMOD_RST# 30 RZM-PMOD_RST# 8 PMOD Reset Out (active low) P1.11 TINT19/GPIO P1_11/TINT19-PMOD_IRQ 57 RZM-PMOD_IRQ 7 PMOD connector IRQ or GPIO P8.14 GPIO/RXPCK2/TxD4 P8_14/RSPCK2 22 RZM_RSPCK2 4 PMOD SPI Clock or UART Tx
P9.1 P8.9
GPIO/MISO2/CAN0RX GPIO/RXD3/SPDIF_OUT P9_1/MISO2-P8_9/RXD3 26 RZM_PMOD_RX 3
PMOD SPI Master In/Slave Out or CAN RX PMOD UART RxD or SPDIF OUT
P9.0 P8.8
GPIO/MOSI2/CAN0TX GPIO/TXD3/SPDIF_IN P9_0/MOSI2-P8_8/TXD3 24 RZM_PMOD_TX 2
PMOD SPI Master Out/Slave In or CAN Tx PMOD UART TxD or SPDIF IN
P8.15 GPIO/SSL20/RxD4 P8_15/SSL20 20 RZM_SSL20 1 PMOD SPI Slave Select or UART Rx
Note how two pairs of MCU pins are joined and overlaid on the PMOD connector. This enables both the standard UART and SPI modes as well as other possibilities, including CAN, SPDIF, and a second UART.
Only enable one function per joined signal (e.g. P9.1 & P8.9) on the MCU to be an output to avoid damaging the MCU.
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This table summarizes the configuration of the MCU pins for the various standard PMOD modes: MCU PMOD Standard PMOD Configuration for Mode
Port Pin 1A GPIO
4A UART
4B XUART
2A SPI
2B XSPI
P3.7 8 GPIO GPO GPO P1.11 7 GPIO/TINT19 TINT19 TINT19 P8.14 4 GPIO GPO/RTS# GPO/RTS# RXPCK2 RXPCK2 P9.1
3 GPIO MISO2 MISO2
P8.9 GPIO RxD3 RxD3 P9.0
2 GPIO MOSI2 MOSI2
P8.8 GPIO TxD3 TxD3 P8.15 1 GPIO GPI/CTS# GPI/CTS# SSL20/GPO SSL20/GPIO
This table summarizes the configuration of the MCU pins for the various non-standard PMOD modes: MCU PMOD Non-Standard PMOD Configuration for Mode
Port Pin CAN GPIO
CAN UART
UART GPIO
UART UART
SPDIF GPIO
UART SPDIF
P3.7 8 GPIO/TINT47 GPIO/TINT47 GPIO/TINT47 GPIO/TINT47 GPIO/TINT47 GPIO/TINT47 P1.11 7 GPIO/TINT19 GPIO/TINT19 GPIO/TINT19 GPIO/TINT19 GPIO/TINT19 GPIO/TINT19 P8.14 4 TxD4 TxD4 TxD4 TxD4 TxD4 P9.1
3 CAN0RX CAN0RX GPIO/TINT132
P8.9 RxD3 SPDIF_OUT SPDIF_OUT P9.0
2 CAN0TX CAN0TX GPIO/TINT131
P8.8 TxD3 SPDIF_IN SPDIF_IN P8.15 1 RxD4 RxD4 TxD4 TxD4 TxD4
8.12 - Segger J-Link On-Board Debugger/Programmer The YLCDRZA1H Baseboard includes a Segger J-Link On-Board debugger/programmer to enable easy and effective software development without the need for an external programmer/debugger. The USB Micro connector near the barrel power jack is the PC’s connection point for this debugger – see Chapter 3 – Getting Started, Section 3.3 - Connecting to the Segger J-Link On-Board Debugger. The debugger is connected directly to the MCU:
MCU Schematic Operation Port Function Module # Baseboard JP0_1 TDO TDO 81 RZM-TDO JTAG test data out TCK TCK TCK 85 RZM-TCK JTAG test clock JP0_0 TDI TDI 79 RZM-TDI JTAG test data In TMS TMS TMS 83 RZM-TMS JTAG test mode select TRST TRST TRST# 77 RZM-TRST# JTAG test reset (active low)
RES RES RESET# 27 RZM-RESET# System Reset (open drain, active low) Also RESET Pushbutton S3 on Baseboard
Details of this circuit are the proprietary and confidential property of SEGGER Microcontroller GmbH & Co. KG, and can only be implemented under license from Segger; contact Segger for details.
The Baseboard’s LED2 green element is controlled directly by the Segger J-Link On-Board and flashes to indicate activity on the debugger.
8.13 - Ambient Light Sensor In low-light conditions, the LCD can be so bright it can visually “bloom” and difficult to read. As in mobile phones and tablets, the YLCDRZA1H includes a forward-facing through-glass ambient light sensor, enabling software to monitor the ambient light conditions and dynamically adjust the LCD backlight intensity.
The Avago APDS-9002-021 Ambient Light Sensor (ALS) is a simple device that outputs a current proportional to the ambient light conditions. Through a resistor, this appears as a voltage between 0 and 3.3V on an Analog to Digital Converter (ADC) input on the MCU. Software can poll this ADC periodically. The ALS is connected as follows:
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MCU Schematic Operation Port Function Module # Baseboard P1.8 AN0 P1_8/AN0_ALS 53 RZM-AN0_ALS Ambient light sensor analog input
8.14 - Digital Video Camera A forward-facing VGA (640x480) color digital video camera module based on the popular OmniVision OV7670 smart sensor is included in the YLCDRZA1H.
The video data is moved over a dedicated high speed parallel video data channel. Operation and features of the camera are controlled over I2C.
The camera module is connected as follows:
MCU Schematic Operation Port Function Module DIMM Baseboard P10.0 VIO_CLK P10_0/VIO_CLK 32 RZM-VIO_CLK Camera CLK P10.1 VIO_VD P10_1/VIO_VSYNC 19 RZM-VIO_VSYNC Camera Vertical Sync P10.2 VIO_HD P10_2/VIO_HSYNC 17 RZM-VIO_HSYNC Camera Horizontal Sync P10.3 VIO_FLD P10_3/VIO_FLD 38 RZM-VIO_FLD Camera FLD P10.4 VIO_D0 P10_4/VIO_D0 109 RZM-VIO_D0 Camera D0 (LSB) P10.5 VIO_D1 P10_5/VIO_D1 107 RZM-VIO_D1 Camera D1 P10.6 VIO_D2 P10_6/VIO_D2 72 RZM-VIO_D2 Camera D2 P10.7 VIO_D3 P10_7/VIO_D3 76 RZM-VIO_D3 Camera D3 P10.8 VIO_D4 P10_8/VIO_D4 90 RZM-VIO_D4 Camera D4 P10.9 VIO_D5 P10_9/VIO_D5 127 RZM-VIO_D5 Camera D5 P10.10 VIO_D6 P10_10/VIO_D6 94 RZM-VIO_D6 Camera D6 P10.11 VIO_D7 P10_11/VIO_D7 117 RZM-VIO_D7 Camera D7 (MSB)
P1.0 P1.0/SCL0 P1_0/SCL0 126 RZM-SCL0 I2C0 Clock P1.0 P1.1/SDA0 P1_1/SDA0 128 RZM-SDA0 I2C0 Data
The OV7670 I2C communication protocol is described in detail in the OmniVision Serial Camera Control Bus (SCCB) Functional Specification, and is present on I2C bus 0 at 7-bit address 0x21:
Address I2C Bus
Max kHz Location Device 7-bit Read Write
0x21 0x43 0x42 0 400 Baseboard OV7670 Camera Module
See Chapter 10 – I2C Device Summary for a complete list of I2C Devices on the YLCDRZA1H.
8.15 - Switches The baseboard has two pushbuttons and two 4-position DIP switches for selecting YLCDRZA1H features:
Switch Type Purpose S1 4 Switch DIP Slide MCU Boot Mode and Spread Spectrum Clocking S2 NOMC SPST Pushbutton User Input S3 NOMC SPST Pushbutton System Reset when pressed S4 4 Switch DIP Slide RS232/485 Transceiver Options
DIP Switch S1 controls the MCU boot modes and spread spectrum clocking. See Chapter 7.3 - MCU Boot Mode Selection and Chapter 7.6 - On-Module Clocking.
DIP Switch S4 controls various RS232/485 transceiver capabilities: See Chapter 8.7 - Industrial Networking: CAN, RS232, RS485.
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S2 is a simple GPIO/Interrupt input into the MCU, and can be used by software for any user-input purpose. S3 is connected to the system RESET# line, debounced and managed on the RZ Module as described in 7.2 - System Reset. They are connected as follows:
MCU Schematic Operation Port Function Module # Baseboard P7.8 GPI/IRQ1 P7_8/IRQ1 195 RZM-P7_8/IRQ1 Baseboard Pushbutton S2 (active low w/ IRQ)
RES RES RESET# 27 RZM-RESET# System Reset (open drain, active low) Also RESET Pushbutton S3 on Baseboard
8.16 - LEDs The Baseboard has two tri-color LEDs (red, green, orange=red+green):
LED Green Red LED1 Software P3.9 (active high) Software P3.8 (active high) LED2 Segger J-Link Activity Baseboard Power Present
LED1 is connected as follows: MCU Schematic Operation
Port Function Module DIMM Baseboard P3.8 P3.8 P3_8-RZM_LED_RED 71 RZM-LED_RED Baseboard LED1 Red element (active high) P3.9 P3.9 P3_9-RZM_LED_GRN 65 RZM-LED_GRN Baseboard LED1 Green element (active high)
8.17 - CryptoAuthentication The YLCDRZA1H Baseboard includes an Atmel ATSHA204A CryptoAuthentication Chip, which includes 4.5kbit EEPROM and a Random Number Generator (RNG).
The encryption key OTP area within the 4.5kbit EEPROM is pre-programmed by Serious Integrated Inc. for support of the Serious Human Interface™ Platform (SHIP) and is unavailable for other uses. Modifying or writing to this area will permanently remove your ability to use SHIP on the YLCDRZA1H.
The chip appears on I2C bus 0 at 7-bit address 0x64: Address I2C
Bus Max kHz Location Device 7-bit Read Write
0x64 0xC9 0xC8 0 1000 Baseboard ATSHA204A Crypto + RNG + EEPROM
Consult the Atmel ATSHA204 Data Sheet for programming and hardware information of the ATSHA204 device.
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Chapter 9 – External Interrupt Summary MCU Schematic Operation
Port Function Module # Baseboard IRQ0 P7.8 IRQ1/GPIO P7_8/IRQ1 195 RZM-P7_8/IRQ1 Baseboard Pushbutton S2 (active low w/IRQ) IRQ2 P1.9 IRQ3 P1_9_IRQ-AUDIO_IRQ 63 RZM-AUDIO_IRQ Audio System P1.10 IRQ4 P1_10/IRQ4-TOUCH_IRQ 52 RZM-TOUCH_IRQ LCD Touch controller P1.5 IRQ5 P1_5/IRQ5-ET_IRQ 171 RZM-ET_IRQ Ethernet PHY (WOL) IRQ6 IRQ7 P1.11 TINT19/GPIO P1_11/TINT19-PMOD_IRQ 57 RZM-PMOD_IRQ PMOD connector IRQ or GPIO P1.12 TINT20/GPI P1_12/TINT20-USBH_OC 56 RZM-USBH_OC# USB host overcurrent
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Chapter 10 – I2C Device Summary The two I2C interfaces on the YLCDRZA1H are as follows:
MCU Schematic Operation Port Function Module DIMM Baseboard P1.0 SCL0 P1_0/SCL0 126 RZM-SCL0 I2C0 Clock P1.1 SDA0 P1_1/SDA0 128 RZM-SDA0 I2C0 Data P1.2 P1.2/SCL1 P1_2/SCL1 165 RZM-SCL1 I2C1 Clock (Touch dedicated) P1.3 P1.3/SDA1 P1_3/SDA1 169 RZM-SDA1 I2C1 Data (Touch dedicated)
The devices on these channels are as follows: Address I2C
Bus Max kHz Location Device 7-bit Read Write
0x10 0x21 0x20 0 400 Baseboard MAX98089ETN+ Audio Codec/Amplifier 0x21 0x43 0x42 0 400 Baseboard OV7670 Camera Module 0x50 0xA1 0xA0 0 400 Baseboard 24AA02E48T EEPROM/MAC Address 0x57 0xAD 0xAC 0 400 Module CAT34C02 EEPROM 0x60 0xC1 0xC0 0 400 Module Si5351C Clock Synthesizer 0x64 0xC9 0xC8 0 1000 Baseboard ATSHA204A Crypto + RNG + EEPROM 0x68 0xD1 0xD0 0 1000 Baseboard PCF8523 Real Time Clock Calendar 0x5C 0xB9 0xB8 1 400 LCD Pixcir C48 Capacitive Touch Controller
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Chapter 11 – SPI Device Summary The SPI interfaces on the YLCDRZA1H are as follows:
MCU Schematic Operation Port Function Module # Baseboard P9.2 SPBCLK0 P9_2/SPBCLK0 166 RZM-SPBCLK0 XIP/Boot Serial FLASH Clock P9.3 SPBSSL0 P9_3/SPBSSL0 174 RZM-SPBSSL0 XIP/Boot Serial FLASH SSL# P9.4 SPBIO00 P9_4/SPBIO00 178 RZM-SPBIO00 XIP Lo/Boot Serial FLASH Data 0/MOSI P9.5 SPBIO10 P9_5/SPBIO10 173 RZM-SPBIO10 XIP Lo/Boot Serial FLASH Data 1/MISO P9.6 SPBIO20 P9_6/SPBIO20 XIP Lo/Boot Serial FLASH Data 2 P9.7 SPBIO30 P9_7/SPBIO30 XIP Lo/Boot Serial FLASH Data 3 P2.12 SPBIO01 P2_12/SPBIO01 178 RZM-SPBIO01 XIP Hi Serial FLASH Data 0 P2.13 SPBIO11 P2_13/SPBIO11 173 RZM-SPBIO11 XIP Hi XIP Serial FLASH Data 1 P2.14 SPBIO21 P2_14/SPBIO21 XIP Hi XIP Serial FLASH Data 2 P2.15 SPBIO31 P2_15/SPBIO31 XIP Hi XIP Serial FLASH Data 3
The devices on these interfaces are:
Slave Select SPI Bus
Max MHz Location Device
P9_3/SPBSSL0 0 Module Both Serial FLASH Devices
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Chapter 12 - Schematics & Bills of Materials
12.1 - SO-DIMM Detail The SO-DIMM socket on the YLCDRZA1H Baseboard is an inexpensive and readily-available TE 1473005-4 200Pos 0.6mm pitch socket. Designers can make their own baseboards and reuse the RZ Module as a time-to-prototype vehicle. The DIMM socket has the following pin-out:
MCU Schematic Operation Port Function Module # Baseboard GND 1 GND System Ground +5V 2 +5V System +5V Main Supply P11.8 LCD0_TCON6 P11_8/LCD_DEN 3 RZM-LCD_DEN LCD Data Enable P11.7 LCD_DATA0 P11_7/LCD_DATA0 4 RZM-LCD_DATA0 LCD Blue 0 (LSB) P11.9 LCD0_TCON5 P11_9/LCD_VSYNC 5 RZM-LCD_VSYNC LCD Vertical Sync P11.6 LCD_DATA1 P11_6/LCD_DATA1 6 RZM-LCD_DATA1 LCD Blue 1 P8.13 GPIO P8_13-TOUCH_RST# 7 RZM-TOUCH_RST# LCD Touch controller reset (active low) P11.10 LCD0_TCON4 P11_10/LCD_HSYNC 8 RZM-LCD_HSYNC LCD Horizontal Sync P8.11 GPO P8_11/RS_ON 9 RZM-RS_ON RSXXX Transceiver Enable (active high) CKIO CKIO 10 RZM-CKIO MCU System Clock Out (unused on Baseboard) P8.10 GPO P8_10/RS_DEN 11 RZM-RS_DEN RSXXX Transmit Drive Enable (active high) P8.8 GPIO/TXD3/SP
DIF_IN P9_0/MOSI2-P8_8/TXD3 12 RZM_PMOD_TX PMOD UART TxD or SPDIF IN
GND 13 GND System Ground +5V 14 +5V System +5V Main Supply P3.2 RxD2 P3_2/UART_RX 15 RZM-UART_RX RSXXX Receive Data P8.9 GPIO/RXD3/SP
DIF_OUT P9_1/MISO2-P8_9/RXD3 16 RZM_PMOD_RX PMOD UART RxD or SPDIF OUT
P10.2 VIO_HD P10_2/VIO_HSYNC 17 RZM-VIO_HSYNC Camera Horizontal Sync P8.12 PWM1E P8_12/PWM1E-BLEN 18 RZM-BLEN LCD Backlight Enable (active high) P10.1 VIO_VD P10_1/VIO_VSYNC 19 RZM-VIO_VSYNC Camera Vertical Sync P8.15 GPIO/SSL20/R
xD4 P8_15/SSL20 20 RZM_SSL20 PMOD SPI Slave Select or UART Rx P3.3 MDIO P3_3/ET_MDIO 21 RZM-ET_MDIO MII Management data I/O P8.14 GPIO/RXPCK2/
TxD4 P8_14/RSPCK2 22 RZM_RSPCK2 PMOD SPI Clock or UART Tx P3.0 LCD0_CLK P3_0/LCD_CLK 23 RZM-LCD_CLK Dot Clock P9.0 GPIO/MOSI2/C
AN0TX P9_0/MOSI2-P8_8/TXD3 24 RZM_PMOD_TX PMOD SPI Master Out/Slave In or CAN Tx
P3.1 TxD2 P3_1/UART_TX 25 RZM_UART_TX RSXXX Transmit Data P9.1 GPIO/MISO2/C
AN0RX P9_1/MISO2-P8_9/RXD3 26 RZM_PMOD_RX PMOD SPI Master In/Slave Out or CAN RX
RES RESET# 27 RZM-RESET# System Reset (open drain, active low) Also RESET Pushbutton S3 on Baseboard
P3.6 RXDV P3_6/ET_RXDV 28 RZM-ET_RXDV MII Receive data valid P0.5 GPO P0_5-ET_RESET# 29 RZM-ET_RESET# MII PHY Reset (active low) P3.7 GPIO P3_7-PMOD_RST# 30 RZM-PMOD_RST# PMOD Reset Out (active low) P0.4 GPO P0_4-MMC_RST# 31 RZM-MMC_RST MMC Reset (active low with pull-up) P10.0 VIO_CLK P10_0/VIO_CLK 32 RZM-VIO_CLK Camera CLK GND 33 GND System Ground +5V 34 +5V System +5V Main Supply DP_1 USBF_N 35 RZM-USBF_N USB Device (“Function”) D- P3.5 RXER P3_5/ET_RXER 36 RZM-ET_RXER MII Receive error DP_0 USBF_P 37 RZM-USBF_P USB Device (“Function”) D+ P10.3 VIO_FLD P10_3/VIO_FLD 38 RZM-VIO_FLD Camera FLD GND 39 GND System Ground P3.4 RXCLK P3_4/ET_RXCLK 40 RZM-ET_RXCLK MII Receive Clock VBUSIN1 VBUSIN1 41 RZM-USBF_VBUS USB Device (“Function”) VBUS Detect
+3V3 42 RZM_3V3 +3.3V Module Supply Out (unconnected on Baseboard)
VBUSIN0 VBUSIN0 43 RZM-USBH_VBUS USBH Power Detection (active high) 44 unconnected/reserved
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MCU Schematic Operation GND 45 GND System Ground 46 unconnected/reserved DP_1 USBH_P 47 RZM-USBH_P USB Host D+ +5V 48 +5V System +5V Main Supply DM_1 USBH_N 49 RZM-USBH_N USB Host D- 50 unconnected/reserved GND 51 GND System Ground P1.10 IRQ4 P1_10/IRQ4-
TOUCH_IRQ 52 RZM-TOUCH_IRQ LCD Touch controller interrupt P1.8 AN0 P1_8/AN0_ALS 53 RZM-AN0_ALS Ambient light sensor analog input P1.15 GPIO P1_15-LCD_ON 54 RZM-P1_15 (unused on Baseboard, input only signal) P1.13 GPIO P1_13-USBH_5V_EN 55 RZM-P1_13 (unused on Baseboard, input only signal) P1.12 TINT20/GPIO P1_12/TINT20-
USBH_OC 56 RZM_USBH_OC# USB Host VBUS Overcurrent Detect (active low) P1.11 TINT19/GPIO P1_11/TINT19-
PMOD_IRQ 57 RZM-PMOD_IRQ PMOD connector IRQ or GPIO P1.14 COL P1_14/ET_COL 58 RZM-ET_COL MII Collision detection GND 59 GND System Ground +5V 60 +5V System +5V Main Supply P0.1 MD_BOOT1 P0_1/MD_BOOT1 61 RZM-BOOT1 MCU Boot Mode P1.9 IRQ3 P1_9/IRQ3-
AUDIO_IRQ 63 RZM-AUDIO_IRQ Audio Codec Interrupt 62 unconnected/reserved P1.9 IRQ3 P1_9_IRQ-
AUDIO_IRQ 63 RZM-AUDIO_IRQ Audio System P3.14 MMC_D3 P3_14/MMC_D3 64 RZM-MMC_D3 e-MMC Data Bus D3 P3.9 P3.9 P3_9-RZM_LED_GRN 65 RZM-LED_GRN Baseboard LED1 Green element (active high) P4.1 LCD_DATA9 P4_1/LCD_DATA9 66 RZM-LCD_DATA9 LCD Green 1 CLKAUDIO_24MHZ 67 RZM-AUDIO_CLK 24MHz Base Codec Clock from RZ Module P4.2 LCD_DATA10 P4_2/LCD_DATA10 68 RZM-LCD_DATA10 LCD Green 2 69 unconnected/reserved P4.3 LCD_DATA11 P4_3/LCD_DATA11 70 RZM-LCD_DATA11 LCD Green 3 P3.8 P3.8 P3_8-RZM_LED_RED 71 RZM-LED_RED Baseboard LED1 Red element (active high) P3.8 P3.8 P3_8-RZM_LED_RED 71 RZM-LED_RED Baseboard LED1 Red element (active high) P10.6 VIO_D2 P10_6/VIO_D2 72 RZM-VIO_D2 Camera D2 73 unconnected/reserved +5V 74 +5V System +5V Main Supply GND 75 GND System Ground P10.7 VIO_D3 P10_7/VIO_D3 76 RZM-VIO_D3 Camera D3 TRST TRST# 77 RZM-TRST# JTAG test reset (active low) P4.5 LCD_DATA13 P4_5/LCD_DATA13 78 RZM-LCD_DATA13 LCD Green 5 JP0.0 TDI TDI 79 RZM-TDI JTAG test data In P2.0 TXCLK P2_0/ET_TXCLK 80 RZM-ET_TXCLK Transmit Clock JP0.1 TDO TDO 81 RZM-TDO JTAG test data out P4.6 LCD_DATA14 P4_6/LCD_DATA14 82 RZM-LCD_DATA14 LCD Green 6 TMS TMS 83 RZM-TMS JTAG test mode select P4.9 SD_WP_0 P4_9/SD_WP 84 RZM-SD_WP SD Write Protect (active low, pulled high) TCK TCK 85 RZM-TCK JTAG test clock
P2.1 P2.1/ET_TXER P2_1/ET_TXER 86 RZM-ET_TXER MII Transmit Error or GPIO (unused on Baseboard)
GND 87 GND System Ground +5V 88 +5V System +5V Main Supply P3.10 MMC_D1 P3_10/MMC_D1 89 RZM-MMC_D1 e-MMC Data Bus D1 P10.8 VIO_D4 P10_8/VIO_D4 90 RZM-VIO_D4 Camera D4 P3.12 MMC_CLK P3_12/MMC_CLK 91 RZM-MMC_CLK MMC clock P4.10 SD_D1_0 P4_10/SD_D1 92 RZM-SD_D1 SD Data Bus D1 P3.11 MMC_D0 P3_11/MMC_D0 93 RZM-MMC_D0 e-MMC Data Bus D0 (LSB) P10.10 VIO_D6 P10_10/VIO_D6 94 RZM-VIO_D6 Camera D6 GND 95 GND System Ground P4.12 SD_CLK_0 P4_12/SD_CLK 96 RZM-SD_CLK SD Clock P3.13 MMC_CMD P3_13/MMC_CMD 97 RZM-MMC_CMD MMC Command/response
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MCU Schematic Operation P4.13 SD_CMD_0 P4_13/SD_CMD 98 RZM-SD_CMD SD Command/Response P3.15 MMC_D2 P3_15/MMC_D2 99 RZM-MMC_D2 e-MMC Data Bus D2 +5V 100 +5V System +5V Main Supply GND 101 GND System Ground +5V 102 +5V System +5V Main Supply P4.0 LCD_DATA8 P4_0/LCD_DATA8 103 RZM-LCD_DATA8 LCD Green 0 (LSB) P2.2 TXEN P2_2/ET_TXEN 104 RZM-ET_TXEN MII Transmit Enable P4.4 LCD_DATA12 P4_4/LCD_DATA12 105 RZM-LCD_DATA12 LCD Green 4 P4.15 SD_D2_0 P4_15/SD_D2 106 RZM-SD_D2 SD Data Bus D2 P10.5 VIO_D1 P10_5/VIO_D1 107 RZM-VIO_D1 Camera D1 P10.12 SSICLK1 P10_12/SSISCK 108 RZM_SSISCK Serial Sound Interface Clock P10.4 VIO_D0 P10_4/VIO_D0 109 RZM-VIO_D0 Camera D0 (LSB) P2.5 TXD[1] P2_5/ET_TXD1 110 RZM-ET_TXD1 MII Transmit Data 1 P4.7 LCD_DATA15 P4_7/LCD_DATA15 111 RZM-LCD_DATA15 LCD Green 7 (MSB) P10.15 SSITxD1 P10_15/SSITxD 112 RZM_SSITxD Serial Sound Transmit Data (output) GND 113 GND System Ground +5V 114 +5V System +5V Main Supply P4.8 SD_CD_0 P4_8/SD_CD 115 RZM-SD_CD SD Card Detect (active low, pulled high) P10.14 SSIRxD1 P10_14/SSIRxD 116 RZM_SSIRxD Serial Sound Receive Data (input) P10.11
VIO_D7 P10_11/VIO_D7 117 RZM-VIO_D7 Camera D7 (MSB) P2.9 RXD[1] P2_9/ET_RXD1 118 RZM-ET_RXD1 MII Receive Data 1 P4.11 SD_D0_0 P4_11/SD_D0 119 RZM-SD_D0 SD Data Bus D0 (LSB) P2.7 TXD[3] P2_7/ET_TXD3 120 RZM-ET_TXD3 MII Transmit Data 3 (MSB) P2.3 CRS P2_3/ET_CRS 121 RZM-ET_CRS Carrier detection P2.10 RXD[2] P2_10/ET_RXD2 122 RZM-ET_RXD2 MII Receive Data 2 P4.14 SD_D3_0 P4_14/SD_D3 123 RZM-SD_D3 SD Data Bus D3 (MSB) 124 unconnected/reserved GND 125 GND System Ground P1.0 SCL0 P1_0/SCL0 126 RZM-SCL0 I2C0 Clock P10.9 VIO_D5 P10_9/VIO_D5 127 RZM-VIO_D5 Camera D5 P1.1 SDA0 P1_1/SDA0 128 RZM-SDA0 I2C0 Data P2.4 TXD[0] P2_4/ET_TXD0 129 RZM-ET_TXD0 MII Transmit Data 0 (LSB) +5V 130 +5V System +5V Main Supply P2.11 RXD[3] P2_11/ET_RXD3 131 RZM-ET_RXD3 MII Receive Data 3 (MSB) P1.6 P1.6/SCL3 P1_6/SCL3 132 RZM-
USBH_5V_EN# See 5.5 - USB Host Power Subsystem P10.13 SSIWS1 P10_13/SSIWS 133 RZM_SSIWS Serial Sound Word Select P1.4 CAN1RX P1_4/CAN1RX 134 RZM_CANRX CAN Receive Data P2.6 TXD[2] P2_6/ET_TXD2 135 RZM-ET_TXD2 MII Transmit Data 2 P1.7 P1.7/SDA3 P1_7/SDA3 136 RZM-P1_7 (unused on Baseboard) P2.8 RXD[0] P2_8/ET_RXD0 137 RZM-ET_RXD0 MII Receive Data 0 (LSB) +5V 138 +5V System +5V Main Supply GND 139 GND System Ground GND 140 GND System Ground GND 141 GND System Ground P5.0 LCD_DATA16 P5_0/LCD_DATA16 142 RZM-LCD_DATA16 LCD Red 0 (LSB) GND 143 System Ground P5.1 LCD_DATA17 P5_1/LCD_DATA17 144 RZM-LCD_DATA17 LCD Red 1 GND 145 GND System Ground GND 146 GND System Ground GND 147 GND System Ground P5.4 LCD_DATA20 P5_4/LCD_DATA20 148 RZM-LCD_DATA20 LCD Red 4 GND 149 GND System Ground P5.5 LCD_DATA21 P5_5/LCD_DATA21 150 RZM-LCD_DATA21 LCD Red 5 GND 151 GND System Ground GND 152 GND System Ground GND 153 GND System Ground
YLCDRZA1H Technical Reference Manual
Rev 2.20 Jul 21, 2015
Page 34 of 68
MCU Schematic Operation P5.2 LCD_DATA18 P5_2/LCD_DATA18 154 RZM-LCD_DATA18 LCD Red 2 GND 155 GND System Ground P5.3 LCD_DATA19 P5_3/LCD_DATA19 156 RZM-LCD_DATA19 LCD Red 3 GND 157 GND System Ground GND 158 GND System Ground GND 159 GND System Ground P5.6 LCD_DATA22 P5_6/LCD_DATA22 160 RZM-LCD_DATA22 LCD Red 6 GND 161 GND System Ground P5.7 LCD_DATA23 P5_7/LCD_DATA23 162 RZM-LCD_DATA23 LCD Red 7 (MSB) GND 163 GND System Ground GND 164 GND System Ground P1_2/SCL1 165 RZM-SCL1 Touch dedicated I2C1 Clock P9.2 SPBCLK0 P9_2/SPBCLK0 166 RZM-SPBCLK0 Serial FLASH Clock GND 167 GND System Ground P5.9 MDC P5_9/ET_MDC 168 RZM-ET_MDC Management data clock P1_3/SDA1 169 RZM-SDA1 Touch dedicated I2C1 Data P5.10 CAN1TX P5_10/CAN1TX 170 RZM-CANTX CAN Transmit Data P1.5 IRQ5 P1_5/IRQ5-ET_IRQ 171 RZM-ET_IRQ PHY Interrupt (active low) GND 172 GND System Ground P9.5 SPBIO10 P9_5/SPBIO10 173 RZM-SPBIO10 Serial FLASH MISO P9.3 SPBSSL0 P9_3/SPBSSL0 174 RZM-SPBSSL0 Serial FLASH SSL# P11.1 LCD_DATA6 P11_1/LCD_DATA6 175 RZM-LCD_DATA6 LCD Blue 6
P0.3 MD_CLKS/GPIO P0_3/MD_CLKS 176 RZM-SSCG
Enables Spread Spectrum Clocking in MCU by Baseboard S1.2 (ON/active GND,OFF pulled high (4.7kΩ) on RZ Baseboard)
P11.3 LCD_DATA4 P11_3/LCD_DATA4 177 RZM-LCD_DATA4 LCD Blue 4 P9.4 SPBIO00 P9_4/SPBIO00 178 RZM-SPBIO00 Serial FLASH MOSI P7.0 MD_BOOT2 P7_0/MD_BOOT2 179 RZM-BOOT2 MCU Boot Mode 180 unconnected/reserved P11.7 LCD_DATA0 P11_7/LCD_DATA0 181 RZM-LCD_DATA7 LCD Blue 7 (MSB) 182 unconnected/reserved P11.2 LCD_DATA5 P11_2/LCD_DATA5 183 RZM-LCD_DATA5 LCD Blue 5 184 unconnected/reserved P11.14 MMC_D6 P11_14/MMC_D6 185 RZM-MMC_D6 e-MMC Data Bus D6 186 unconnected/reserved P11.12 MMC_D4 P11_12/MMC_D4 187 RZM-MMC_D4 e-MMC Data Bus D4 188 unconnected/reserved GND 189 GND System Ground 190 unconnected/reserved P11.13 MMC_D5 P11_13/MMC_D5 191 RZM-MMC_D5 e-MMC Data Bus D5 192 unconnected/reserved P11.15 MMC_D7 P11_15/MMC_D7 193 RZM-MMC_D7 e-MMC Data Bus D7 (MSB) 194 unconnected/reserved P7.8 P7.8/IRQ1 P7_8/IRQ1 195 RZM-P7_8/IRQ1 Baseboard Pushbutton S2 (active low w/IRQ) 196 unconnected/reserved P11.4 LCD_DATA3 P11_4/LCD_DATA3 197 RZM-LCD_DATA3 LCD Blue 3 198 unconnected/reserved P11.5 LCD_DATA2 P11_5/LCD_DATA2 199 RZM-LCD_DATA2 LCD Blue 2
PWRDWN# 200 PWRDWN# Power Down RZ Module (unconnected on Baseboard, active low)
YLCDRZA1H Technical Reference Manual
Rev 2.20 Jul 21, 2015
Page 35 of 68
12.2 - RZ Module Schematics
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5Author:
Date:
Revi
sion:
Sheet
ofJo
rge
Amod
iov2
.1 P
CB02
Ren
esas
YLC
DR
ZA1H
MC
U M
odul
e Po
wer
Sup
plie
s and
Use
r I/O
STM
1818
Vcc2
RST
1
Vss
3
U2
10V
10uF
C1
1uH
L22.2u
H
L1
6.3V
4.7u
FC
2
GN
D
GN
DG
ND
0.1u
FC
3
0.1u
FC
6
GN
DG
ND
GN
DG
ND
+VEX
T
PWR
DW
N#
+1V
18
+3V
3
GN
D
RES
ET#
+1V
18
+3V
3
POR
B
0.1u
FC
4
GN
D
+3V
3
4K70
R2
100K
0R
1
Prog
ram
for
Mod
e 2
Vout
1 =
1.17
50V
Vout
2 =
3.30
00V
Buck
1->4
ms-
>Buc
k2 s
eque
nce
PORB
= P
G1
& P
G2
1 342
G RLED
1
GN
D
470R
R21
1K50
R22
+3V
3 P11_
11-L
ED1R
6.3V
22uF
C5
P912
2V
IN24
PVIN
19
PVIN
222
PVIN
223
VIN
SEL
4
VR
EF2
VG
ND
1
DEV
SLPI
N5
GPI
33
GPI
O14
14
GPI
O15
15G
PO16
16
GPI
O17
17
GN
D 11
PAD
PGN
D2
19
LX2
21LX
220
FB2
18
PGN
D1
8
LX1
7
FB1
6
U1
PIC101PIC102COC
1
PIC201PIC202COC
2
PIC301PIC302COC
3
PIC401PIC402COC4
PIC501PIC502COC5
PIC601PIC602COC
6
PIL1
01PIL102
COL1
PIL2
01PIL202
COL2
PILED101
PILED102
PILED103
PILED104
COLED1
PIR101PIR102 COR1
PIR201PIR202 COR2
PIR2101
PIR2102
COR21
PIR2201
PIR2202
COR22
PIU101
PIU102
PIU103
PIU104
PIU105
PIU106
PIU107
PIU108
PIU109
PIU1011
PIU1014
PIU1015
PIU1016
PIU1017
PIU1018
PIU1
019
PIU1020
PIU1
021
PIU1022
PIU1023
PIU1024
PIU10PAD
COU1
PIU201
PIU202 PIU203
COU2
PIC202PIC302
PIL102
PIU106
NL01V18
PIC402
PIC502PIC602
PIL202
PIR202
PIR2101
PIU1018
PIU202NL03V3
PIC102PIR102
PIU109
PIU1022
PIU1023
PIU1024
NL0V
EXT
PIC101PIC201
PIC301
PIC401
PIC501PIC601
PILED102
PILED104
PIU101
PIU104
PIU105
PIU108
PIU1011
PIU1
019
PIU10PAD
PIU203
PIL1
01PIU107
PIL2
01PIU1020
PIU1
021
PILED101
PIR2102
PILED103
PIR2202
PIU102
PIU1014
PIU1015
PIU1017
PIR2201
NLP1
1011
0LED
1R
PIU1016
NLPO
RB
PIR101
PIU103
NLPWRDWN#
PIR201
PIU201
NLRESET#
am.re
nesas.com/H
iResGU
I
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BB
AA
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4/15
/201
5Author:
Date:
Revi
sion:
Sheet
ofJo
rge
Amod
iov2
.1 P
CB02
Ren
esas
YLC
DR
ZA1H
MC
U M
odul
eM
CU P
ower
0.1uFC9
0.1uFC10
0.1uFC11
0.1uFC12
0.1uFC13
0.1uFC14
0.1uFC15
0.1uFC16
0.1uFC17
0.1u
FC2
8
0.1uFC29
0.1uFC30
0.1uFC31
0.1uFC32
0.1uFC33
0.1uFC34
0.1uFC35
0.1uFC36
GN
D
GN
D
+3V
3
GN
D
6.3V
10uF
C7
6.3V
10uF
C22
6.3V
10uF
C27
0.1u
FC
8
0.1u
FC2
40.
1uF
C26
0.1u
FC2
5
GN
D
GN
D
+3V
3+1
V18
6.3V
10uF
C21
6.3V
10uF
C39
+1V
18
RZ/
1AH
-BG
A32
4
VC
CD
13V
CC
D3
VC
CC
2V
CC
B1
PVC
CD
7PV
CC
C19
PVC
CB2
0
VSS C15
VSS C20
VSS A1
VSS D4
VSS A8
VSS D10
VSS D15
VSS D19
PVC
CD
8
VSS G22
VC
CR1
9VSS A12
VSS A22
PVC
CD
16
VSS J9
VC
CE4
PVC
CD
17
VSS J10
PVC
CD
18
VSS J11
PVC
CL1
9
VSS J12
VC
CF4
VSS M9
PLLV
CC
W14
PVC
CM
19
VSS J13
AV
CC
2A
A20
AVSS2 AB20A
VR
EFA
B21
VSS J14
PVC
CN
4
PVC
CP4
PVC
CW
4PV
CC
W5
PVC
CW
6
PVC
CW
12
PVC
CW
13
PVC
CW
19
VSS W15
AVSS1 W17
VC
CJ1
9V
CC
K19
VC
CM
4
VC
CR
4
VC
CT4
VC
CW
9
VSS B2
VSS K9
VSS B21
VSS K10
VSS K11
VSS K12
VSS K13
VSS K14
VSS L9
VSS C3
VSS L10
VSS L11
VSS L12
VSS L13
VSS L14
PVC
CY
3
PVC
CY
20
PVC
CA
A2
VSS U1
VSS P12
VSS U22
VSS P13
VSS W1
VSS P14VSS P19
VD
AV
CC
B14
VDAVSS A14
VSS W7
VSS Y14
VSS W8
VSS AA10
VSS W11
VSS AA14
LVD
SPLL
VC
CD
9
VSS AB10VSS AB13
VSS AB17PVC
CA
A21
PVC
CA
B1
VSS W16
VC
CW
10
VC
CT1
9
VC
CU
19
VSS AB7
VSS AB22
VSS M10
VSS M11
VSS M12VSS M13
VSS M14
VSS N9
VSS N10
VSS N11VSS N12
VSS N13
VSS N14
VSS P9
VSS P10
VSS P11
LVD
SAPV
CC
1C1
2
LVD
SAPV
CC
2D
12
AV
CC
1W
18
USB
APV
CC
AB1
4U
SBA
Vcc
Y13
U6D
0.1u
FC2
3
+3V
3
GN
D
0.1uFC18
0.1uFC19
0.1uFC20
0.1uFC37
0.1uFC38
GN
D
GN
DG
ND
GN
D
GN
D
GN
D
PIC701PIC702COC
7
PIC801PIC802COC8
PIC901PIC902COC9
PIC1001PIC1002COC10
PIC1101PIC1102COC11
PIC1201PIC1202COC12
PIC1301PIC1302COC13
PIC1401PIC1402COC14
PIC1501PIC1502COC15
PIC1601PIC1602COC16
PIC1701PIC1702COC17
PIC1801PIC1802COC18
PIC1901PIC1902COC19
PIC2001PIC2002COC20
PIC2101PIC2102COC21
PIC2201PIC2202COC22
PIC2301PIC2302COC23
PIC2401PIC2402COC24
PIC2501PIC2502CO
C25
PIC2601PIC2602COC26
PIC2701PIC2702COC27
PIC2801PIC2802COC28
PIC2901PIC2902COC29
PIC3001PIC3002COC30
PIC3101PIC3102COC31
PIC3201PIC3202COC32
PIC3301PIC3302COC33
PIC3401PIC3402COC34
PIC3501PIC3502COC35
PIC3601PIC3602COC36
PIC3701PIC3702COC37
PIC3801PIC3802COC38
PIC3901PIC3902COC39
PIU60A1PIU60A8PIU60A12
PIU60A14PIU60A22
PIU60AA2
PIU60AA10PIU60AA14
PIU60AA20
PIU6
0AA2
1
PIU60AB1
PIU60AB7PIU60AB10PIU60A
B13
PIU60AB14
PIU60AB17PIU60AB20
PIU60AB21
PIU60AB22
PIU60B1
PIU60B2
PIU60B14
PIU60B20
PIU60B21
PIU60C2
PIU60C3
PIU60C12
PIU60C15
PIU60C19
PIU60C20
PIU60D3
PIU60D4
PIU60D7
PIU60D8
PIU60D9
PIU60D10
PIU60D12
PIU60D13
PIU60D15
PIU60D16
PIU60D17
PIU60D18
PIU60D19
PIU60E4
PIU60F4
PIU60G22PIU60J9PIU60J
10PIU60J11PIU60J12PIU6
0J13PIU60J14
PIU60J19
PIU60K9PIU60K10PIU60K
11PIU60K12PIU60K13PIU60
K14
PIU60K19
PIU60L9PIU60L10PIU60L11
PIU60L12PIU60L13PIU60L
14
PIU60L19
PIU60M4
PIU60M9PIU60M10PIU60M
11PIU60M12PIU60M13PIU60
M14
PIU60M19
PIU60N4
PIU60N9PIU60N10PIU60N11
PIU60N12PIU60N13PIU60N
14
PIU60P4
PIU60P9PIU60P10PIU60P
11PIU60P12PIU60P13PIU
60P14PIU60P19
PIU60R4
PIU60R19
PIU60T4
PIU60T19
PIU60U1
PIU60U19
PIU60U22PIU60W1
PIU60W4
PIU60W5
PIU60W6
PIU60W7PIU60W8
PIU60W9
PIU60W10
PIU60W11
PIU60W12
PIU60W13
PIU60W14
PIU60W15PIU60W16
PIU60W17
PIU60W18
PIU60W19
PIU60Y3
PIU60Y13
PIU60Y14
PIU60Y20
COU6D
PIC902PIC1002
PIC1102PIC1202
PIC1302PIC1402
PIC1502PIC1602
PIC1702PIC1802
PIC1902PIC2002
PIC2102
PIC2202PIC2402
PIC2502PIC2602
PIU60B1
PIU60C2
PIU60D3
PIU60D9
PIU60D13
PIU60E4
PIU60F4
PIU60J19
PIU60K19
PIU60M4
PIU60R4
PIU60R19
PIU60T4
PIU60T19
PIU60U19
PIU60W9
PIU60W10
PIU60W14
PIU60Y13
PIC702PIC802
PIC2302
PIC2702PIC2802
PIC2902PIC3002
PIC3102PIC3202
PIC3302PIC3402
PIC3502PIC3602
PIC3702PIC3802
PIC3902
PIU60AA2
PIU60AA20
PIU6
0AA2
1
PIU60AB1
PIU60AB14
PIU60AB21
PIU60B14
PIU60B20
PIU60C12
PIU60C19
PIU60D7
PIU60D8
PIU60D12
PIU60D16
PIU60D17
PIU60D18
PIU60L19
PIU60M19
PIU60N4
PIU60P4
PIU60W4
PIU60W5
PIU60W6
PIU60W12
PIU60W13
PIU60W18
PIU60W19
PIU60Y3
PIU60Y20
PIC701PIC801
PIC901PIC1001
PIC1101PIC1201
PIC1301PIC1401
PIC1501PIC1601
PIC1701PIC1801
PIC1901PIC2001
PIC2101
PIC2201
PIC2301
PIC2401PIC2501
PIC2601
PIC2701PIC2801
PIC2901PIC3001
PIC3101PIC3201
PIC3301PIC3401
PIC3501PIC3601
PIC3701PIC3801
PIC3901PIU60A1PIU6
0A8PIU60A12PIU60A14
PIU60A22PIU60AA10PIU
60AA14PIU60AB7PIU60AB10
PIU60AB13PIU60AB17
PIU60AB20PIU60AB22
PIU60B2PIU60B21PIU60C
3PIU60C15PIU60C20PIU60
D4PIU60D10PIU60D15PIU
60D19PIU60G22PIU60J9
PIU60J10PIU60J11PIU60J
12PIU60J13PIU60J14PIU6
0K9PIU60K10PIU60K11PIU60
K12PIU60K13PIU60K14PI
U60L9PIU60L10PIU60L11
PIU60L12PIU60L13PIU60L
14PIU60M9PIU60M10PIU6
0M11PIU60M12PIU60M13PIU60
M14PIU60N9PIU60N10PIU
60N11PIU60N12PIU60N13
PIU60N14PIU60P9PIU60
P10PIU60P11PIU60P12PIU6
0P13PIU60P14PIU60P19PIU60
U1PIU60U22PIU60W1PIU
60W7PIU60W8PIU60W11
PIU60W15PIU60W16
PIU60W17PIU60Y14
am.re
nesas.com/H
iResGU
I
11
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/201
5Author:
Date:
Revi
sion:
Sheet
ofJo
rge
Amod
iov2
.1 P
CB02
Ren
esas
YLC
DR
ZA1H
MC
U M
odul
eM
CU C
lock
s & C
ontr
ol S
igna
ls
0.1u
FC4
60.
1uF
C47
24K
0.5%
R10
5K60
0.5%
R11
GN
DG
ND
GN
DG
ND
VB
USI
N0
USB
H_N
USB
H_P
TRST
#TD
OTD
ITM
STC
K
RES
ET#
P1_1
/SD
A0
P1_0
/SC
L0
GN
DG
ND
CLK
VID
EO_2
7MH
Z
CLK
AU
DIO
_24M
HZ
CLK
USB
_48M
HZ
CLK
MCU
_13M
HZ
0.1u
FC4
20.
1uF
C40
0.1u
FC4
1
0.1u
FC4
5
GN
D
+3V
3
0
R5 0R
6 0
R80
R7
4K70
R3
Si53
51C
SDA
5
SCL
4
GND
PAD
CLK
419
CLK
38
CLK
29
CLK
112
CLK
013
VDD20
VD
DO
A11
VD
DO
B10
VD
DO
C18
VD
DO
D14
CLK
517
CLK
616
CLK
715
XA
1
XB
2
INTR
3
OEB
7
CLK
IN6
U3
Si50
1O
E1
GN
D2
CLK
3
VD
D4
12.0
00M
Hz
U4
GN
D
0.1u
FC4
30.
1uF
C44
GN
DG
ND
GN
DG
ND
GN
D
VID
EO_X
1Y
22
VID
EO_X
2Y
21
AU
DIO
_X1
W22
AU
DIO
_X2
W21
RTC
_X1
AB
8
RTC
_X2
AA
8
USB
_X1
AB1
5
USB
_X2
AA
15
EXTA
LA
B16
XTA
LA
A16
RES
Y8
NM
IY
9
CK
IOV
1
DM
_1A
A11
DP_
1A
B11
VB
USI
N1
Y11
DM
_0A
B12
DP_
0A
A12
VB
USI
N0
Y12
REF
RIN
AA
13
TRST
V20
JP0_
1/TD
OU
20JP
0_0/
TDI
V21
TMS
V22
TCK
U21
VIN
1AB1
5
VIN
2AA
15
BIA
SC1
4
VR
PD
14
VR
MC1
3
VIN
1BB1
3
VIN
2BA
13
EMLE
(Vss
)B1
2
P0_0
/MD
_BO
OT0
Y15
P0_1
/MD
_BO
OT1
Y16
P0_2
/MD
_CLK
A16
P0_3
/MD
_CLK
SA
3
TEST
MD
(Vss
)Y
10
P0_4
/RTC
_X3
AB
9
P0_5
/RTC
_X4
AA
9
BSC
AN
PA
A22
CLK
TEST
(Vss
)C
9
LVD
SREF
RIN
D11
RZ/
1AH
-BG
A32
4U
6C
32.7
68K
Hz
X1
12pF
C48
12pF
C49
GN
DG
NDP0
_4-M
MC_
RST
#P0
_5-E
T_R
ESET
#
VB
USI
N1
USB
F_N
USB
F_P
P0_3
/MD
_CLK
S
GN
D
P0_0
/MD
_BO
OT0
P0_1
/MD
_BO
OT1
CK
IO
5K60
0.5%
R9
GN
D
BSC
AN
P
GN
DG
ND
22K
0R1
4
GN
D
4K70
R4
47K
0R1
247
K0
R13
PIC4001PIC4002CO
C40
PIC4101PIC4102CO
C41
PIC4201PIC4202CO
C42
PIC4301PIC4302CO
C43
PIC4401PIC4402CO
C44
PIC4501PIC4502COC45
PIC4601PIC4602COC46
PIC4701PIC4702COC47
PIC4801PIC4802COC48
PIC4901PIC4902CO
C49
PIR301PIR302 COR3
PIR401PIR402COR4
PIR501
PIR502
COR5
PIR601
PIR602
COR6
PIR701
PIR702
COR7
PIR801
PIR802
COR8
PIR901PIR902COR
9
PIR1001PIR1002COR10
PIR1101PIR1102COR11
PIR1201PIR1202COR12
PIR1301PIR1302COR13
PIR1401PIR1402COR14
PIU301
PIU302
PIU303
PIU304
PIU305
PIU306
PIU307
PIU308
PIU309
PIU3010
PIU3011
PIU3012
PIU3013
PIU3014
PIU3015
PIU3016
PIU3017
PIU3018
PIU3019
PIU3020 PIU30PAD
COU3
PIU401
PIU402
PIU403
PIU404
COU4
PIU6
0A3
PIU60A13
PIU60A15
PIU60A16
PIU60AA8
PIU60AA9
PIU60AA11
PIU60AA12
PIU60AA13
PIU6
0AA1
5
PIU6
0AA1
6
PIU60AA22
PIU60AB8
PIU60AB9
PIU60AB11
PIU60AB12
PIU6
0AB1
5
PIU6
0AB1
6
PIU60B12
PIU60B13
PIU60B15
PIU60C9
PIU60C13
PIU60C14
PIU60D11
PIU60D14
PIU60U20
PIU60U21
PIU6
0V1
PIU60V20
PIU60V21
PIU60V22
PIU60W21
PIU60W22
PIU60Y8
PIU60Y9
PIU60Y10
PIU60Y11
PIU60Y12
PIU60Y15
PIU60Y16
PIU60Y21
PIU60Y22CO
U6C
PIX1
01PIX102
COX1
PIC4002PIC4102
PIC4202PIC4302
PIC4402
PIC4502
PIR302PIR402
PIU3010
PIU3011
PIU3014
PIU3018
PIU3020
PIU401
PIU404
PIR1402
PIU60AA22
NLBSCANP
PIU6
0V1
NLCKIO
PIR602
PIU60W22
NLCLKAUDIO024MHZ
PIR802
PIU6
0AB1
6NL
CLKM
CU01
3MHZ
PIR702
PIU6
0AB1
5NLCLKUSB048MHZ
PIR502
PIU60Y22
NLCLKVIDEO027MHZ
PIC4001PIC4101
PIC4201PIC4301
PIC4401
PIC4501
PIC4601PIC4701
PIC4801PIC4901
PIR901PIR1001
PIR1101PIR1201
PIR1301PIR1401
PIU307
PIU30PAD
PIU402
PIU60A16
PIU60B12
PIU60C9
PIU60Y10
PIC4602
PIU60C13
PIC4702
PIU60D14
PIC4802
PIU60AB8
PIX1
01
PIC4902
PIU60AA8
PIX102
PIR301
PIU60Y9
PIR501
PIU3015
PIR601
PIU3013
PIR701
PIU3019
PIR801
PIU3017
PIR902
PIU60D11
PIR1002
PIU60C14
PIR1102
PIU60AA13
PIU301
PIU302
PIU303
PIU306
PIU403
PIU308
PIU309
PIU3012
PIU3016
PIU60A13
PIU60A15
PIU6
0AA1
5
PIU6
0AA1
6
PIU60B13
PIU60B15
PIU60W21
PIU60Y21
PIR401
PIU60Y15
NLP0000MD0BOOT0
PIR1302
PIU60Y16
NLP0010MD0BOOT1
PIR1202
PIU6
0A3
NLP0030MD0CLKS
PIU60AB9
NLP0
040M
MC0R
ST#
PIU60AA9
NLP0050ET0RESET#
PIU304
NLP1000SCL0
PIU305
NLP1010SDA0
PIU60Y8
NLRESET#
PIU60U21
NLTCK
PIU60V21
NLTDI
PIU60U20
NLTD
O
PIU60V22
NLTM
S
PIU60V20
NLTRST#
PIU60AA11
NLUSBF0N
PIU60AB11
NLUSBF0P
PIU60AB12
NLUSBH0N
PIU60AA12
NLUSBH0P
PIU60Y12
NLVBUSIN0
PIU60Y11
NLVBUSIN1
am.re
nesas.com/H
iResGU
I
11
22
33
44
DD
CC
BB
AA
48
4/15
/201
5Author:
Date:
Revi
sion:
Sheet
ofJo
rge
Amod
iov2
.1 P
CB02
Ren
esas
YLC
DR
ZA1H
MC
U M
odul
eM
CU D
ata/
Addr
ess B
us, S
eria
l & L
CD In
terf
aces
P3_1
/UA
RT_
TXP3
_2/U
AR
T_R
XP3
_3/E
T_M
DIO
P3_4
/ET_
RX
CLK
P3_5
/ET_
RX
ERP3
_6/E
T_R
XD
VP3
_7-P
MO
D_R
ST#
P3_8
-RZM
_LED
_RED
P3_1
0/M
MC_
D1
P3_1
5/M
MC_
D2
P3_9
-RZM
_LED
_GR
N
P6_0
/D0
P6_2
/D2
P6_3
/D3
P6_4
/D4
P6_5
/D5
P6_9
/D9
P3_0
/LC
D_C
LK
P6_1
3/D
13
P3_1
2/M
MC_
CLK
P3_1
3/M
MC_
CM
DP3
_14/
MM
C_ D
3
P6_7
/D7
P6_8
/D8
P3_1
1/M
MC_
D0
P5_8
/CS2
#-SD
RA
M1_
CS#
P5_9
/ET_
MD
CP5
_10/
CA
N1T
X
P5_0
/LC
D_D
ATA
16P5
_1/L
CD
_DA
TA17
P5_2
/LC
D_D
ATA
18P5
_3/L
CD
_DA
TA19
P5_4
/LC
D_D
ATA
20P5
_5/L
CD
_DA
TA21
P5_6
/LC
D_D
ATA
22P5
_7/L
CD
_DA
TA23
P4_0
/LC
D_D
ATA
8P4
_1/L
CD
_DA
TA9
P4_2
/LC
D_D
ATA
10P4
_3/L
CD
_DA
TA11
P4_4
/LC
D_D
ATA
12P4
_5/L
CD
_DA
TA13
P4_6
/LC
D_D
ATA
14P4
_7/L
CD
_DA
TA15
P4_8
/SD
_CD
P4_9
/SD
_WP
P4_1
0/SD
_D1
P4_1
1/SD
_D0
P4_1
2/SD
_CLK
P4_1
3/SD
_CM
DP4
_14/
SD_D
3P4
_15/
SD_D
2
P9_2
/SPB
CLK
0P9
_3/S
PBSS
L0P9
_4/S
PBIO
00P9
_5/S
PBIO
10P9
_6/S
PBIO
20P9
_7/S
PBIO
30
P6_1
/D1
P6_6
/D6
P6_1
0/D
10P6
_11/
D11
P6_1
2/D
12
P6_1
4/D
14P6
_15/
D15
7 24K70RA1B
6 34K70RA1C
5 44K70RA1D
8 14K70RA2A
7 24K70RA2B
6 34K70RA2C
5 44K70RA2D
8 14K70RA3A
7 24K70RA3B
6 34K70RA3C
5 44K70RA3D
8 14K70RA4A
7 24K70RA4B
6 34K70RA4C
5 44K70RA4D
P5_0
/TX
CLK
OU
TP/L
CD
1_D
ATA
0/LC
D0_
DA
TA16
A11
P5_1
/TX
CLK
OU
TM/L
CD
1_D
ATA
1/LC
D0_
DA
TA17
B11
P5_4
/TX
OU
T1P/
LCD
1_D
ATA
4/LC
D0_
DA
TA20
C11
P5_5
/TX
OU
T1M
/LC
D1_
DA
TA5/
LCD
0_D
ATA
21C1
0
P5_9
/WE2
/DQ
MU
L/M
DC
/DV
0_V
SYN
C/IR
Q2
A7
P5_2
/TX
OU
T2P/
LCD
1_D
ATA
2/LC
D0_
DA
TA18
A10
P5_3
/TX
OU
T2M
/LC
D1_
DA
TA3/
LCD
0_D
ATA
19B1
0
P5_6
/TX
OU
T0P/
LCD
1_D
ATA
6/LC
D0_
DA
TA22
A9
P5_7
/TX
OU
T0M
/LC
D1_
DA
TA7/
LCD
0_D
ATA
23B
9
P5_8
/LC
D0_
EXTC
LK/IR
Q0/
DV
1_C
LK/D
V0_
CLK
B8
P5_1
0/W
E3/D
QM
UU
/AH
/DV
0_H
SYN
C/C
Tx1/
IETx
DB
7
P9_2
/LC
D1_
DA
TA18
/SPB
CLK
_0/L
TXD
0/SC
K1/
A0/
SCL1
OC
8
P9_4
/LC
D1_
DA
TA20
/SPB
IO0_
0/M
LB_S
IG/R
xD1/
SCL2
OB
6
P9_6
/LC
D1_
DA
TA22
/SPB
IO2_
0/SS
IWS2
/RTS
1/C
S5/S
CL3
OA
5
P9_3
/LC
D1_
DA
TA19
/SPB
SSL_
0/M
LB_D
AT/
TxD
1/SD
A1O
A6
P9_5
/LC
D1_
DA
TA21
/SPB
IO1_
0/SS
ISCK
2/C
TS1/
CS4
/SD
A2O
C7
P9_7
/LC
D1_
DA
TA23
/SPB
IO3_
0/SS
IDA
TA2/
TIO
C1A
/SD
A3O
B5
P4_0
/LC
D0_
DA
TA8/
TIO
C0A
/FR
E/D
AR
C_M
OU
T0P2
0
P4_2
/LC
D0_
DA
TA10
/TIO
C0C
/FA
LE/C
Rx3
/TxD
2P2
1P4
_1/L
CD
0_D
ATA
9/TI
OC
0B/F
CLE
/SC
K2
P22
P4_3
/LC
D0_
DA
TA11
/TIO
C0D
/FW
E/C
Tx3/
RxD
2/D
AR
C_M
OU
T5N
22P4
_4/L
CD
0_D
ATA
12/R
SPCK
1/TI
OC
4A/P
WM
2E/S
SISC
K0
M21
P4_6
/LC
D0_
DA
TA14
/MO
SI1/
TIO
C4C
/PW
M2G
L22
P4_8
/LC
D0_
DA
TA16
/LC
D1_
TCO
N3/
SD_C
D_0
/MM
C_C
DK
20
P4_1
0/LC
D0_
DA
TA18
/LC
D1_
TCO
N5/
SD_D
1_0/
MM
C_D
1J2
2
P4_1
1/LC
D0_
DA
TA19
/LC
D1_
TCO
N6/
SD_D
0_0/
MM
C_D
0H
19
P4_1
2/LC
D0_
DA
TA20
/LC
D1_
CLK
/SD
_CLK
_0/M
MC_
CLK
H22
P4_5
/LC
D0_
DA
TA13
/SSL
10/T
IOC
4B/P
WM
2FM
20
P4_7
/LC
D0_
DA
TA15
/MIS
O1/
TIO
C4D
/PW
M2H
L20
P4_9
/LC
D0_
DA
TA17
/LC
D1_
TCO
N4/
SD_W
P_0
K21
P4_1
3/LC
D0_
DA
TA21
/LC
D1_
TCO
N0/
SD_C
MD
_0/M
MC_
CM
DG
21
P4_1
5/LC
D0_
DA
TA23
/LC
D1_
TCO
N2/
SD_D
2_0/
MM
C_D
2F2
2P4
_14/
LCD
0_D
ATA
22/L
CD
1_TC
ON
1/SD
_D3_
0/M
MC_
D3
G19
P3_6
/LC
D0_
TCO
N5/
RX
DV
/SSI
RxD
1/SC
Ic_R
XD
0A
B3
P3_4
/LC
D0_
TCO
N3/
RX
CLK
/SSI
SCK
1/A
UD
IO_X
OU
T2Y
5
P3_2
/LC
D0_
TCO
N1/
TXEN
/RxD
2/SC
Ic_R
XD
1Y
7P3
_1/L
CD
0_TC
ON
0/TX
ER/IR
Q6/
TxD
2/SC
Ic_T
XD
1A
A7
P3_8
/LC
D0_
DA
TA0/
NA
F0/T
RA
CE_
DA
TA0
V19
P3_7
/LC
D0_
TCO
N6/
SSIT
xD1/
LCD
1_EX
TCLK
/SC
Ic_C
TS0
Y4
P3_5
/LC
D0_
TCO
N4/
RX
ER/S
SIW
S1/A
UD
IO_X
OU
T3/S
CIc
_TX
D0
AA
4
P3_3
/LC
D0_
TCO
N2/
MD
IO/IR
Q4/
BS/
SCIc
_CTS
1#/R
TS1#
AA
6
P3_0
/LC
D0_
CLK
/TX
CLK
/IRQ
2/SC
K2/
SCIc
_SC
K1
AB
6
P3_1
1/LC
D0_
DA
TA3/
NA
F3/T
RA
CE_
DA
TA3
T21
P3_1
2/LC
D0_
DA
TA4/
NA
F4/S
D_C
LK_1
/MM
C_C
LKT2
2
P3_1
4/LC
D0_
DA
TA6/
NA
F6/T
RA
CE_
CLK
/SD
_D3_
1/M
MC_
D3
R21
P3_1
0/LC
D0_
DA
TA2/
NA
F2/T
RA
CE_
DA
TA2
T20
P3_1
3/LC
D0_
DA
TA5/
NA
F5/A
UD
IO_X
OU
T/SD
_CM
D_1
/MM
C_C
MD
R22
P3_1
5/LC
D0_
DA
TA7/
NA
F7/T
RA
CE_
CTR
L/SD
_D2_
1/M
MC_
D2
R20
P3_9
/LC
D0_
DA
TA1/
NA
F1/T
RA
CE_
DA
TA1
W20
P6_5
/D5/
LCD
1_D
ATA
13/C
Tx2/
SCK
5C
1
P6_6
/D6/
LCD
1_D
ATA
14/L
CD
0_TC
ON
5/Tx
D5
D2
P6_7
/D7/
LCD
1_D
ATA
15/L
CD
0_TC
ON
6D
1
P6_8
/D8/
DV
0_D
ATA
12/C
AN
_CLK
E3
P6_9
/D9/
DV
0_D
ATA
13/T
xD0/
LCD
0_D
ATA
1/IR
Q1
E2P6
_10/
D10
/DV
0_D
ATA
14/L
CD
0_TC
ON
5/R
xD0/
LCD
0_D
ATA
2E1
P6_1
1/D
11/D
V0_
DA
TA15
/LC
D0_
TCO
N6/
SCK
1/LC
D0_
DA
TA3
F3
P6_1
2/D
12/D
V0_
DA
TA20
/TX
D1/
LCD
0_D
ATA
4G
4
P6_1
3/D
13/D
V0_
DA
TA21
/SCK
6/R
XD
1/LC
D0_
DA
TA5
F2
P6_1
4/D
14/D
V0_
DA
TA22
/TxD
6/LC
D0_
DA
TA6
F1
P6_1
5/D
15/D
V0_
DA
TA23
/RxD
6/LC
D0_
DA
TA7
G3
P6_1
/D1/
LCD
1_D
ATA
9/LT
XD
0/IR
Q4/
TIO
C1B
D6
P6_3
/D3/
LCD
1_D
ATA
11/L
TXD
1/IR
Q2/
CTS
5D
5
P6_0
/D0/
LCD
1_D
ATA
8/LR
XD
0/D
V0_
CLK
/TIO
C1A
B3
P6_4
/D4/
LCD
1_D
ATA
12/C
Rx2
/IRQ
3/R
TS5
A2
P6_2
/D2/
LCD
1_D
ATA
10/L
RX
D1/
IRQ
7/TC
LKA
C4
RZ/
1AH
-BG
A32
4U
6B
+3V
3
4K708 1
RA1A
PIRA101PIRA108CORA1A
PIRA102PIRA107CORA1B
PIRA103PIRA106CORA1C
PIRA104PIRA105CORA1D
PIRA201PIRA208CORA2A
PIRA202PIRA207CORA2B
PIRA203PIRA206CORA2C
PIRA204PIRA205CORA2D
PIRA301PIRA308CORA3A
PIRA302PIRA307CORA3B
PIRA303PIRA306CORA3C
PIRA304PIRA305CORA3D
PIRA401PIRA408CORA4A
PIRA402PIRA407CORA4B
PIRA403PIRA406CORA4C
PIRA404PIRA405CORA4D
PIU6
0A2
PIU60A5
PIU6
0A6
PIU60A7
PIU6
0A9
PIU60A10
PIU60A11
PIU60AA4
PIU60AA6
PIU60AA7
PIU60AB3
PIU60AB6
PIU60B3
PIU6
0B5
PIU60B6
PIU6
0B7
PIU6
0B8
PIU60B9
PIU60B10
PIU60B11
PIU60C1
PIU6
0C4
PIU6
0C7
PIU60C8
PIU60C10
PIU60C11
PIU60D1
PIU6
0D2
PIU60D5
PIU60D6
PIU60E1
PIU6
0E2
PIU60E3
PIU60F1
PIU60F2
PIU6
0F3
PIU60F22
PIU60G3
PIU60G4
PIU60G19
PIU60G21
PIU60H19
PIU60H22
PIU60J22
PIU60K20
PIU60K21
PIU60L20
PIU60L22
PIU60M20
PIU60M21
PIU60N22
PIU60P20
PIU60P21
PIU60P22
PIU60R20
PIU60R21
PIU60R22
PIU60T20
PIU60T21
PIU60T22
PIU60V19
PIU60W20
PIU60Y4
PIU60Y5
PIU60Y7
COU6B
PIRA105PIRA106
PIRA107PIRA108
PIRA205PIRA206
PIRA207PIRA208
PIRA305PIRA306
PIRA307PIRA308
PIRA405PIRA406
PIRA407PIRA408
PIU60AB6
NLP3000LCD0CLK
PIU60AA7
NLP3
010U
ART0
TX
PIU60Y7
NLP3020UART0RX
PIU60AA6
NLP3
030E
T0MD
IO
PIU60Y5
NLP3
040E
T0RX
CLK
PIU60AA4
NLP3
050E
T0RX
ER
PIU60AB3
NLP3060ET0RXDV
PIU60Y4
NLP3070PMOD0RST#
PIU60V19
NLP3
080R
ZM0L
ED0R
ED
PIU60W20
NLP3
090R
ZM0L
ED0G
RNPIU60T20
NLP3
0100
MMC0
D1
PIU60T21
NLP3
0110
MMC0
D0
PIU60T22
NLP30120MMC0 CLK
PIU60R22
NLP30130MMC0 CMD
PIU60R21
NLP3
0140
MMC0
D3
PIU60R20
NLP3
0150
MMC0
D2
PIU60P20
NLP4000LCD0DATA8
PIU60P22
NLP4010LCD0DATA9
PIU60P21
NLP4
020L
CD0D
ATA1
0
PIU60N22
NLP4
030L
CD0D
ATA1
1
PIU60M21
NLP4
040L
CD0D
ATA1
2
PIU60M20
NLP4
050L
CD0D
ATA1
3
PIU60L22
NLP4
060L
CD0D
ATA1
4
PIU60L20
NLP4
070L
CD0D
ATA1
5
PIU60K20
NLP4080SD0CD
PIU60K21
NLP4
090S
D0WP
PIU60J22
NLP4
0100
SD0D
1
PIU60H19
NLP4
0110
SD0D
0
PIU60H22
NLP4
0120
SD0C
LK
PIU60G21
NLP40130SD0CMD
PIU60G19
NLP4
0140
SD0D
3
PIU60F22
NLP4
0150
SD0D
2
PIU60A11
NLP5
000L
CD0D
ATA1
6
PIU60B11
NLP5
010L
CD0D
ATA1
7
PIU60A10
NLP5
020L
CD0D
ATA1
8PIU60B10
NLP5
030L
CD0D
ATA1
9
PIU60C11
NLP5
040L
CD0D
ATA2
0
PIU60C10
NLP5
050L
CD0D
ATA2
1
PIU6
0A9
NLP5
060L
CD0D
ATA2
2
PIU60B9
NLP5
070L
CD0D
ATA2
3
PIU6
0B8
NLP5080CS2#0SDRAM10CS#
PIU60A7
NLP5
090E
T0MD
CPI
U60B
7NLP50100CAN1TX
PIRA104
PIU60B3
NLP6000D0
PIRA103
PIU60D6
NLP6010D1
PIRA102
PIU6
0C4
NLP6020D2
PIRA101
PIU60D5
NLP6030D3
PIRA204
PIU6
0A2
NLP6040D4
PIRA203
PIU60C1
NLP6050D5
PIRA202
PIU6
0D2
NLP6060D6
PIRA201
PIU60D1
NLP6070D7
PIRA304
PIU60E3
NLP6080D8
PIRA303
PIU6
0E2
NLP6090D9
PIRA302
PIU60E1
NLP60100D10
PIRA301
PIU6
0F3
NLP60110D11
PIRA404
PIU60G4
NLP60120D12
PIRA403
PIU60F2
NLP60130D13
PIRA402
PIU60F1
NLP60140D14
PIRA401
PIU60G3
NLP60150D15
PIU60C8
NLP9
020S
PBCL
K0
PIU6
0A6
NLP9
030S
PBSS
L0
PIU60B6
NLP9040SPBIO00
PIU6
0C7
NLP9050SPBIO10
PIU60A5
NLP9060SPBIO20
PIU6
0B5
NLP9070SPBIO30
am.re
nesas.com/H
iResGU
I
11
22
33
44
DD
CC
BB
AA
58
4/15
/201
5Author:
Date:
Revi
sion:
Sheet
ofJo
rge
Amod
iov2
.1 P
CB02
Ren
esas
YLC
DR
ZA1H
MC
U M
odul
eM
CU e
-MM
C, S
DRAM
, I2C
Iint
erfa
ces &
GPI
O
P7_9
/A1
P7_1
0/A
2P7
_11/
A3
P7_1
2/A
4P7
_13/
A5
P7_1
4/A
6P7
_15/
A7
P8_0
/A8
P8_1
/A9
P8_2
/A10
P8_3
/A11
P8_4
/A12
P8_5
/A13
P8_6
/A14
P8_7
/A15
P8_8
P8_9
P8_1
0/R
S_D
ENP8
_11/
RS_
ON
P8_1
2/PW
M1E
-BLE
NP8
_13-
TOU
CH
_RST
P8_1
4/R
SPC
K2
P8_1
5/SS
L20
P9_0
/MO
SI2
P9_1
/MIS
O2
P1_0
/SC
L0P1
_1/S
DA
0P1
_2/S
CL1
P1_3
/SD
A1
P1_4
/CA
N1R
XP1
_5/IR
Q5-
ET_I
RQ
P1_6
/SC
L3P1
_7/S
DA
3
P7_0
/MD
_BO
OT2
P7_1
/CS3
#-SD
RA
M2_
CS#
P7_2
/RA
S#P7
_3/C
AS#
P7_4
/CK
EP7
_5/R
D/W
R#
P7_6
/WE0
#/D
QM
LLP7
_7/W
E1#/
DQ
MLU
P7_8
/IRQ
1
P1_8
/AN
0_A
LSP1
_9/IR
Q3-
AU
DIO
_IR
QP1
_10/
IRQ
4-TO
UC
H_I
RQ
P1_1
1/TI
NT1
9-PM
OD
_IR
QP1
_12/
TIN
T20-
USB
H_O
CP1
_13-
USB
H_5
V_E
NP1
_14/
ET_C
OL
P1_1
5-LC
D_O
N
P2_1
2/SP
BIO
01P2
_13/
SPB
IO11
P2_1
4/SP
BIO
21P2
_15/
SPB
IO31
P2_0
/ET_
TXC
LKP2
_1/E
T_TX
ERP2
_2/E
T_TX
ENP2
_3/E
T_C
RS
P2_4
/ET_
TXD
0P2
_5/E
T_TX
D1
P2_6
/ET_
TXD
2P2
_7/E
T_TX
D3
P2_8
/ET_
RX
D0
P2_9
/ET_
RX
D1
P2_1
0/ET
_RX
D2
P2_1
1/ET
_RX
D3
P10_
0/V
IO_C
LKP1
0_1/
VIO
_VSY
NC
P10_
2/V
IO_H
SYN
CP1
0_3/
VIO
_FLD
P10_
4/V
IO_D
0P1
0_5/
VIO
_D1
P10_
6/V
IO_D
2P1
0_7/
VIO
_D3
P10_
8/V
IO_D
4P1
0_0/
VIO
_D5
P10_
10/V
IO_D
6P1
0_11
/VIO
_D7
P10_
12/S
SISC
KP1
0_13
/SSI
WS
P10_
14/S
SIR
xDP1
0_15
/SSI
TxD
P11_
0/LC
D_D
ATA
7P1
1_1/
LCD
_DA
TA6
P11_
2/LC
D_D
ATA
5P1
1_3/
LCD
_DA
TA4
P11_
4/LC
D_D
ATA
3P1
1_5/
LCD
_DA
TA2
P11_
6/LC
D_D
ATA
1P1
1_7/
LCD
_DA
TA0
P11_
8/LC
D_D
ENP1
1_9/
LCD
_VSY
NC
P11_
10/L
CD
_HSY
NC
P11_
11-L
ED1R
P11_
12/M
MC_
D4
P11_
13/M
MC_
D5
P11_
14/M
MC_
D6
P11_
15/M
MC_
D7
P7_1
2/A
4/SS
ISCK
4/R
XD
[3]/T
IOC
4A/IR
Q4
M1
P7_1
3/A
5/SS
IWS4
/MD
IO/T
IOC
4B/IR
Q5
N1
P7_1
5/A
7/R
SPCK
0/R
XC
LK/C
TS5/
SCIc
_TX
D0/
IrTX
D/T
IOC
4DN
3
P8_1
/A9/
MO
SI0/
RX
DV
/TX
D5/
SCIc
_RX
D0/
IrR
XD
P2
P8_3
/A11
/DV
1_D
ATA
0/R
SPCK
2/R
TS5/
UA
RTH
_CLK
/IRQ
1/SC
K2
R1
P8_5
/A13
/DV
1_D
ATA
2/M
OSI
2/U
AR
TH_R
xDR
3
P8_9
/A17
/DV
1_D
ATA
6/SP
BIO
1_1/
SPD
IF_O
UT/
TIO
C1B
/PW
M1B
/RxD
3/SS
IWS5
V3
P8_1
1/A
19/M
LB_C
LK/S
PBIO
3_1/
TIO
C3B
/RxD
5/PW
M1D
/SG
OU
T_1/
SSIT
xD5
W3
P8_1
3/A
21/M
LB_S
IG/S
PBSS
L_1/
TIO
C3D
/TX
D5/
PWM
1F/S
GO
UT_
3/SS
IWS4
V4
P8_1
4/A
22/S
PBIO
4_0/
SPB
IO0_
1/TI
OC
2A/R
SPCK
2/PW
M1G
/TxD
4/SS
IDA
TA4
Y2
P9_1
/A25
/SPB
IO7_
0/C
Rx0
/IRQ
0/M
ISO
2/M
SQ/S
DA
0OA
A3
P7_0
/MD
_BO
OT2
/CS0
/DV
0_D
ATA
16/M
DC
/SCK
4/LT
XD
0/TI
OC
0AH
4
P7_3
/CA
S/D
V0_
DA
TA19
/TX
EN/S
CK7/
CTx
2/SS
IRxD
1/TI
OC
0DJ3
P7_4
/CK
E/D
V0_
DA
TA20
/TX
D[0
]/TX
D7/
UA
RTH
_CLK
/SSI
TxD
1/TI
OC
1AJ2
P7_6
/WE0
/DQ
MLL
/DV
0_D
ATA
22/T
XD
[2]/C
TS7/
UA
RTH
_TxD
/SSI
WS2
/TIO
C2A
K3
P7_8
/RD
/SSI
SCK
3/C
Rx0
/TIO
C3A
/IRQ
1K
4
P1_1
3/A
N5/
DV
0_H
SYN
C/W
AIT
/MST
Y18
P1_1
1/A
N3/
IRQ
5/TC
LKD
/MSN
_DV
DEC
1A
A18
P1_9
/AN
1/IR
Q3/
VIO
_D15
/DV
0_D
ATA
15/M
SN_V
DC
51A
B18
P11_
12/C
Rx1
/RSP
CK1/
IRQ
3/M
MC_
D4/
LCD
0_TC
ON
2G
2
P11_
13/C
Tx1/
SSL0
1/LC
D0_
TCO
N4/
MM
C_D
5/LC
D0_
TCO
N1
G1
P11_
14/S
PDIF
_IN
/MO
SI1/
LCD
0_TC
ON
5/M
MC_
D6/
LCD
0_TC
ON
0H
3
P11_
15/S
PDIF
_OU
T/M
ISO
1/IR
Q1/
MM
C_D
7/LC
D0_
CLK
J4
P11_
5/D
V0_
DA
TA17
/SD
_WP_
0/SS
IWS4
/LC
D0_
DA
TA2
L1
P11_
6/D
V0_
DA
TA18
/SD
_D1_
0/SS
IDA
TA4/
MM
C_D
1/LC
D0_
DA
TA1
M2
P11_
8/D
V0_
DA
TA20
/SD
_CLK
_0/R
TS5/
MM
C_C
LK/L
CD
0_TC
ON
6T1
P11_
10/D
V0_
DA
TA22
/SD
_D3_
0/Tx
D5/
MM
C_D
3/LC
D0_
TCO
N4
T3
P11_
11/D
V0_
DA
TA23
/SD
_D2_
0/R
xD5/
MM
C_D
2/LC
D0_
TCO
N3
U3
P10_
1/D
V0_
VSY
NC
/TC
LKB
/PW
M2B
/TX
ER/L
CD
0_D
ATA
22/V
IO_V
DA
A5
P10_
3/D
V0_
DEN
/TC
LKD
/PW
M2D
/CR
S/LC
D0_
DA
TA20
/VIO
_FLD
AB
5
P7_1
/CS3
/DV
0_D
ATA
17/T
XC
LK/T
XD
4/D
V0_
CLK
/SSI
SCK
1/TI
OC
0BH
2
P7_2
/RA
S/D
V0_
DA
TA18
/TX
ER/R
XD
4/C
Rx2
/SSI
WS1
/TIO
C0C
H1
P7_5
/RD
/WR
/DV
0_D
ATA
21/T
XD
[1]/R
XD
7/U
AR
TH_R
xD/S
SISC
K2/
TIO
C1B
J1
P7_7
/WE1
/DQ
MLU
/DV
0_D
ATA
23/T
XD
[3]/R
TS7/
SSID
ATA
2/TI
OC
2BK
2
P7_9
/A1/
SSIW
S3/R
XD
[0]/C
Tx0/
DA
RC
_BPF
CLK
1/TI
OC
3B/IR
Q0
K1
P7_1
0/A
2/SS
IRxD
3/R
XD
[1]/C
Tx1/
DA
RC
_FM
CLK
/TIO
C3C
/IRQ
2L3
P7_1
1/A
3/SS
ITxD
3/R
XD
[2]/C
Rx1
/DA
RC
_FM
IN/T
IOC
3D/IR
Q3
L2
P11_
4/D
V0_
DA
TA16
/SD
_CD
_0/S
SISC
K4/
MM
C_C
D/L
CD
0_D
ATA
3L4
P11_
7/D
V0_
DA
TA19
/SD
_D0_
0/C
TS5/
MM
C_D
0/LC
D0_
DA
TA0
M3
P7_1
4/A
6/SS
IDA
TA4/
CR
S/TI
OC
4C/IR
Q6
N2
P8_0
/A8/
SSL0
0/R
XER
/SCK
5/SC
Ic_S
CK
0P1
P8_2
/A10
/MIS
O0/
RX
D5/
IRQ
0P3
P8_4
/A12
/DV
1_D
ATA
1/SS
L20/
IER
xD/R
xD2
R2
P11_
9/D
V0_
DA
TA21
/SD
_CM
D_0
/SCK
5/M
MC_
CM
D/L
CD
0_TC
ON
5T2
P8_6
/A14
/DV
1_D
ATA
3/M
ISO
2/U
AR
TH_T
xD/IE
TxD
/TxD
2U
2
P8_7
/A15
/DV
1_D
ATA
4/A
UD
IO_X
OU
T/IR
Q5/
CO
LU
4
P8_8
/A16
/DV
1_D
ATA
5/SP
BIO
0_1/
SPD
IF_I
N/T
IOC
1A/P
WM
1A/T
xD3/
SSIS
CK
5V
2
P8_1
0/A
18/D
V1_
DA
TA7/
SPB
IO2_
1/TI
OC
3A/C
Tx4/
PWM
1C/S
GO
UT_
0/D
V0_
CLK
W2
P8_1
2/A
20/M
LB_D
AT/
SPB
CLK
_1/T
IOC
3C/S
CK5/
PWM
1E/S
GO
UT_
2/SS
ISC
K4
Y1
P8_1
5/A
23/S
PBIO
5_0/
SPB
IO1_
1/TI
OC
2B/S
SL20
/PW
M1H
/RxD
4A
A1
P9_0
/A24
/SPB
IO6_
0/C
Tx0/
TCLK
C/M
OSI
2/SC
L0O
AB
2
P10_
0/D
V0_
CLK
/TC
LKA
/PW
M2A
/TX
CLK
/LC
D0_
DA
TA23
/VIO
_CLK
AB
4
P10_
2/D
V0_
HSY
NC
/TC
LKC
/PW
M2C
/TX
EN/L
CD
0_D
ATA
21/V
IO_H
DY
6
P1_8
/AN
0/IR
Q2/
DR
EQ0/
VIO
_D14
/DV
0_D
ATA
14/M
SN_V
DC
50A
A17
P1_1
0/A
N2/
IRQ
4/TC
LKB
/MSN
_DV
DEC
0Y
17
P1_1
2/A
N4/
DV
0_V
SYN
C/V
IO_F
LD/M
PSEL
AB1
9
P1_1
4/A
N6/
CO
L/M
SDA
A19
P1_1
5/A
N7
Y19
P10_
4/D
V0_
DA
TA0/
TIO
C0A
/PW
M2E
/TX
D[0
]/LC
D0_
DA
TA19
/VIO
_D0
N19
P10_
6/D
V0_
DA
TA2/
TIO
C0C
/PW
M2G
/TX
D[2
]/LC
D0_
DA
TA17
/VIO
_D2
N21
P10_
5/D
V0_
DA
TA1/
TIO
C0B
/PW
M2F
/TX
D[1
]/LC
D0_
DA
TA18
/VIO
_D1
N20
P10_
7/D
V0_
DA
TA3/
TIO
C0D
/PW
M2H
/TX
D[3
]/LC
D0_
DA
TA16
/VIO
_D3
M22
P2_0
/D16
/TX
CLK
/DV
0_D
ATA
0/SP
BIO
0_1/
MLB
_CLK
/IRQ
5/V
IO_D
0/LC
D0_
DA
TA16
L21
P10_
10/D
V0_
DA
TA6/
TIO
C2A
/RX
D[2
]/LC
D0_
DA
TA13
/VIO
_D6
H21
P2_1
/D17
/TX
ER/D
V0_
DA
TA1/
SPB
IO1_
1/M
LB_D
AT/
TIO
C2A
/VIO
_D1/
LCD
0_D
ATA
17K
22
P10_
8/D
V0_
DA
TA4/
TIO
C1A
/RX
D[0
]/LC
D0_
DA
TA15
/VIO
_D4
J21
P10_
9/D
V0_
DA
TA5/
TIO
C1B
/RX
D[1
]/LC
D0_
DA
TA14
/VIO
_D5
J20
P10_
11/D
V0_
DA
TA7/
TIO
C2B
/RX
D[3
]/LC
D0_
DA
TA12
/VIO
_D7
H20
P2_3
/D19
/CR
S/D
V0_
DA
TA3/
SPB
IO3_
1/IE
RxD
/CTS
1/V
IO_D
3/LC
D0_
DA
TA19
G20
P2_5
/D21
/TX
D[1
]/DV
0_D
ATA
5/SS
IWS5
/SPB
SSL_
1/Tx
D1/
VIO
_D5/
LCD
0_D
ATA
21E2
2
P2_2
/D18
/TX
EN/D
V0_
DA
TA2/
SPB
IO2_
1/M
LB_S
IG/T
IOC
2B/V
IO_D
2/LC
D0_
DA
TA18
F21
P2_4
/D20
/TX
D[0
]/DV
0_D
ATA
4/SS
ISCK
5/SP
BC
LK_1
/SCK
1/V
IO_D
4/LC
D0_
DA
TA20
F19
P10_
12/D
V0_
DA
TA8/
SSIS
CK1/
RSP
CK0/
LCD
0_D
ATA
11/V
IO_D
8E2
1
P10_
14/D
V0_
DA
TA10
/SSI
RxD
1/M
OSI
0/LC
D0_
DA
TA9/
VIO
_D10
D22
P2_6
/D22
/TX
D[2
]/DV
0_D
ATA
6/SS
IRxD
5/R
xD1/
VIO
_D6/
LCD
0_D
ATA
22E2
0
P2_7
/D23
/TX
D[3
]/DV
0_D
ATA
7/SS
ITxD
5/IE
TxD
/RTS
1/V
IO_D
7/LC
D0_
DA
TA23
C22
P10_
13/D
V0_
DA
TA9/
SSIW
S1/S
SL00
/LC
D0_
DA
TA10
/VIO
_D9
F20
P10_
15/D
V0_
DA
TA11
/SSI
TxD
1/M
ISO
0/LC
D0_
DA
TA8/
VIO
_D11
D21
P2_8
/D24
/RX
D[0
]/DV
0_D
ATA
8/SS
ISCK
0/LC
D0_
TCO
N6/
LCD
1_D
ATA
8/V
IO_D
8/R
SPC
K4
D20
P2_9
/D25
/RX
D[1
]/DV
0_D
ATA
9/SS
IWS0
/LR
XD
0/LC
D1_
DA
TA9/
VIO
_D9/
SSL4
0C2
1
P2_1
0/D
26/R
XD
[2]/D
V0_
DA
TA10
/SSI
RxD
0/LT
XD
0/LC
D1_
DA
TA10
/VIO
_D10
/MO
SI4
B22
P2_1
2/D
28/R
SPCK
0/D
V0_
DA
TA12
/SPB
IO4_
0/C
Rx3
/IRQ
6/LC
D1_
DA
TA12
/TIO
C1B
A21
P2_1
4/D
30/M
OSI
0/D
V0_
DA
TA14
/SPB
IO6_
0/C
Rx4
/TxD
0/LC
D1_
DA
TA14
/IRQ
0C1
8
P1_0
/SC
L0/D
V0_
DA
TA16
/TC
LKA
/IRQ
0/V
IO_V
D/D
V0_
VSY
NC
/SC
L0I
A19
P1_2
/SC
L1/D
V0_
DA
TA18
/FR
B/IR
Q2/
ICN
_SC
K/L
CD
1_EX
TCLK
/SC
L1I
B18
P1_4
/SC
L2/D
V0_
CLK
/CR
x1/IR
Q4/
ICN
_SC
K/C
AN
_CLK
/SC
L2I
B17
P1_6
/SC
L3/D
V1_
VSY
NC
/IER
xD/IR
Q6/
VIO
_D12
/DV
0_D
ATA
12/M
LB_C
LK/S
CL3
IA
17
P2_1
1/D
27/R
XD
[3]/D
V0_
DA
TA11
/SSI
TxD
0/TI
OC
1A/L
CD
1_D
ATA
11/V
IO_D
11/M
ISO
4E1
9
P2_1
3/D
29/S
SL00
/DV
0_D
ATA
13/S
PBIO
5_0/
CTx
3/SC
K0/
LCD
1_D
ATA
13/IR
Q7
A20
P2_1
5/D
31/M
ISO
0/D
V0_
DA
TA15
/SPB
IO7_
0/C
AN
_CLK
/RxD
0/LC
D1_
DA
TA15
/IRQ
1B1
9
P1_1
/SD
A0/
DV
0_D
ATA
17/T
CLK
C/IR
Q1/
VIO
_HD
/DV
0_H
SYN
C/S
DA
0IC1
7
P1_3
/SD
A1/
DV
0_D
ATA
19/C
OL/
IRQ
3/IC
N_S
DA
TA/S
DA
1IA
18
P1_5
/SD
A2/
DV
1_C
LK/C
Rx4
/IRQ
5/V
IO_C
LK/IC
N_S
DA
TA/L
CD
1_EX
TCLK
/SD
A2I
C16
P1_7
/SD
A3/
DV
1_H
SYN
C/L
RX
D0/
IRQ
7/V
IO_D
13/D
V0_
DA
TA13
/SD
A3I
B16
P11_
1/D
V0_
DA
TA13
/TIO
C4B
/MLB
_DA
T/Tx
D6/
LCD
0_D
ATA
6/V
IO_D
13C
6
P11_
3/D
V0_
DA
TA15
/TIO
C4D
/LC
D0_
DA
TA4/
VIO
_D15
C5
P11_
0/D
V0_
DA
TA12
/TIO
C4A
/MLB
_CLK
/SCK
6/LC
D0_
DA
TA7/
VIO
_D12
A4
P11_
2/D
V0_
DA
TA14
/TIO
C4C
/MLB
_SIG
/RxD
6/LC
D0_
DA
TA5/
VIO
_D14
B4
RZ/
1AH
-BG
A32
4U
6A
+3V
3
4K70
R16
8 14K70RA5A
7 24K70RA5B
6 34K70RA5C
5 44K70RA5D
PIR1601PIR1602CO
R16
PIRA501PIRA508CORA5A
PIRA502PIRA507CORA5B
PIRA503PIRA506CORA5C
PIRA504PIRA505CORA5D
PIU60A4
PIU60A17
PIU60A18
PIU60A19
PIU60A20
PIU60A21
PIU60AA1
PIU60AA3
PIU60AA5
PIU6
0AA1
7
PIU6
0AA1
8
PIU6
0AA1
9
PIU60AB2
PIU60AB4
PIU60AB5
PIU6
0AB1
8
PIU6
0AB1
9
PIU6
0B4
PIU60B16
PIU60B17
PIU60B18
PIU60B19
PIU60B22
PIU60C5
PIU60C6
PIU60C16
PIU60C17
PIU60C18
PIU60C21
PIU60C22
PIU60D20
PIU60D21
PIU60D22
PIU60E19
PIU60E20
PIU60E21
PIU60E22
PIU60F19
PIU60F20
PIU60F21
PIU60G1
PIU60G2
PIU60G20
PIU60H1
PIU60H2
PIU60H3
PIU60H4
PIU60H20
PIU60H21
PIU60J1
PIU60J2
PIU60J3
PIU60J4
PIU60J20
PIU60J21
PIU60K1
PIU60K2
PIU60K3
PIU60K4
PIU60K22
PIU60L1
PIU60L2
PIU60L3
PIU6
0L4
PIU60L21
PIU60M1
PIU6
0M2
PIU60M3
PIU60M22
PIU60N1
PIU60N2
PIU60N3
PIU60N19
PIU60N20
PIU60N21
PIU60P1
PIU60P2
PIU60P3
PIU60R1
PIU60R2
PIU60R3
PIU60T1
PIU6
0T2
PIU60T3
PIU60U2
PIU6
0U3
PIU60U4
PIU60V2
PIU60V3
PIU60V4
PIU60W2
PIU60W3
PIU60Y1
PIU60Y2
PIU60Y6
PIU60Y17
PIU60Y18
PIU60Y19CO
U6A
PIR1602PIRA505
PIRA506PIRA507
PIRA508 PIRA501
PIU60A19
NLP1000SCL0
PIRA502
PIU60C17
NLP1010SDA0
PIRA503
PIU60B18
NLP1020SCL1
PIRA504
PIU60A18
NLP1030SDA1
PIU60B17
NLP1
040C
AN1R
X
PIU60C16
NLP1050IRQ50ET0IRQ
PIU60A17
NLP1060SCL3
PIU60B16
NLP1070SDA3
PIU6
0AA1
7NL
P108
0AN0
0ALS
PIU6
0AB1
8NL
P109
0IRQ
30AU
DIO0
IRQ
PIU60Y17
NLP10100IRQ40TOUCH0IRQ
PIU6
0AA1
8NL
P101
10TI
NT19
0PMO
D0IR
Q
PIU6
0AB1
9NLP10120TINT200USBH0OC
PIU60Y18
NLP1
0130
USBH
05V0
EN
PIU6
0AA1
9NL
P101
40ET
0COL
PIU60Y19
NLP1
0150
LCD0
ON
PIU60L21
NLP2
000E
T0TX
CLK
PIU60K22
NLP2
010E
T0TX
ER
PIU60F21
NLP2
020E
T0TX
EN
PIU60G20
NLP2
030E
T0CR
SPIU60F19
NLP2
040E
T0TX
D0
PIU60E22
NLP2
050E
T0TX
D1
PIU60E20
NLP2
060E
T0TX
D2
PIU60C22
NLP2
070E
T0TX
D3
PIU60D20
NLP2
080E
T0RX
D0
PIU60C21
NLP2
090E
T0RX
D1
PIU60B22
NLP2
0100
ET0R
XD2
PIU60E19
NLP2
0110
ET0R
XD3
PIU60A21
NLP2
0120
SPBI
O01
PIU60A20
NLP2
0130
SPBI
O11
PIU60C18
NLP2
0140
SPBI
O21
PIU60B19
NLP2
0150
SPBI
O31
PIR1601
PIU60H4
NLP7000MD0BOOT2
PIU60H2
NLP7010CS3#0SDRAM20CS#
PIU60H1
NLP7020RAS#
PIU60J3
NLP7030CAS#
PIU60J2
NLP7040CKE
PIU60J1
NLP7
050R
D0WR
#
PIU60K3
NLP7
060W
E0#0
DQML
LPIU60K2
NLP7
070W
E1#0
DQML
U
PIU60K4
NLP7080IRQ1
PIU60K1
NLP7090A1
PIU60L3
NLP70100A2
PIU60L2
NLP70110A3
PIU60M1
NLP70120A4
PIU60N1
NLP70130A5
PIU60N2
NLP70140A6
PIU60N3
NLP70150A7
PIU60P1
NLP8000A8
PIU60P2
NLP8010A9
PIU60P3
NLP8020A10
PIU60R1
NLP8030A11
PIU60R2
NLP8040A12
PIU60R3
NLP8050A13
PIU60U2
NLP8060A14
PIU60U4
NLP8070A15
PIU60V2
NLP8
08
PIU60V3
NLP8
09
PIU60W2
NLP8
0100
RS0D
EN
PIU60W3
NLP8
0110
RS0O
N
PIU60Y1
NLP8
0120
PWM1
E0BL
EN
PIU60V4
NLP8
0130
TOUC
H0RS
T
PIU60Y2
NLP8
0140
RSPC
K2
PIU60AA1
NLP80150SSL20
PIU60AB2
NLP9000MOSI2
PIU60AA3
NLP9010MISO2
PIU60AB4
NLP1
0000
VIO0
CLK
PIU60J20
NLP1
0000
VIO0
D5
PIU60AA5
NLP1
0010
VIO0
VSYN
C
PIU60Y6
NLP1
0020
VIO0
HSYN
C
PIU60AB5
NLP10030VIO0FLD
PIU60N19
NLP1
0040
VIO0
D0
PIU60N20
NLP1
0050
VIO0
D1
PIU60N21
NLP1
0060
VIO0
D2
PIU60M22
NLP1
0070
VIO0
D3
PIU60J21
NLP1
0080
VIO0
D4
PIU60H21
NLP1
0010
0VIO
0D6
PIU60H20
NLP1
0011
0VIO
0D7
PIU60E21
NLP1
0012
0SSI
SCK
PIU60F20
NLP1
0013
0SSI
WS
PIU60D22
NLP1
0014
0SSI
RxD
PIU60D21
NLP1
0015
0SSI
TxD
PIU60A4
NLP11000LCD0DATA7
PIU60C6
NLP11010LCD0DATA6
PIU6
0B4
NLP11020LCD0DATA5
PIU60C5
NLP11030LCD0DATA4
PIU6
0L4
NLP11040LCD0DATA3
PIU60L1
NLP11050LCD0DATA2
PIU6
0M2
NLP11060LCD0DATA1
PIU60M3
NLP11070LCD0DATA0
PIU60T1
NLP1
1080
LCD0
DEN
PIU6
0T2
NLP1
1090
LCD0
VSYN
C
PIU60T3
NLP1
1010
0LCD
0HSY
NC
PIU6
0U3
NLP1
1011
0LED
1R
PIU60G2
NLP110120MMC0 D4
PIU60G1
NLP110130MMC0 D5
PIU60H3
NLP110140MMC0 D6
PIU60J4
NLP110150MMC0 D7
am.re
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iResGU
I
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BB
AA
68
4/15
/201
5Author:
Date:
Revi
sion:
Sheet
ofJo
rge
Amod
iov2
.1 P
CB02
Ren
esas
YLC
DR
ZA1H
MC
U M
odul
eDu
al Q
SPI F
LASH
& E
EPRO
M
0.1u
FC5
0
GN
DG
ND
CA
T34C
02
A0
1
A1
2
A2
3
VSS
4SD
A5
SCL
6W
P7
VC
C8
PAD
U7
GN
DG
ND
0.1u
FC5
1
GN
D
4K708 1
RA6A
4K707 2
RA6B
N25
Q25
6AS
1
DQ
12
DQ
2/W
3
VSS
4
PAD
DQ
05
C6
DQ
3/H
7
VC
C8
U8
N25
Q25
6A
S1
DQ
12
DQ
2/W
3V
SS4
PAD
DQ
05
C6
DQ
3/H
7
VC
C8
U5
0.1u
FC5
2
GN
DG
ND
P1_1
/SD
A0
P1_0
/SC
L0
P9_3
/SPB
SSL0
P9_2
/SPB
CLK
0
P9_4
/SPB
IO00
P9_5
/SPB
IO10
P9_6
/SPB
IO20
P9_7
/SPB
IO30
P2_1
2/SP
BIO
01P2
_13/
SPB
IO11
P2_1
4/SP
BIO
21P2
_15/
SPB
IO31
4K706 3
RA6C
4K705 4
RA6D
+3V
3
4K708 1
RA7A
4K707 2
RA7B
4K706 3
RA7C
4K705 4
RA7D
4K70
R17
GN
D
GN
D
GN
D
4K70
R15
PIC5001PIC5002CO
C50
PIC5101PIC5102CO
C51
PIC5201PIC5202CO
C52
PIR1501PIR1502CO
R15
PIR1701PIR1702CO
R17
PIRA601PIRA608CORA6A
PIRA602PIRA607CORA6B
PIRA603PIRA606CORA6C
PIRA604PIRA605CORA6D
PIRA701PIRA708CORA7A
PIRA702PIRA707CORA7B
PIRA703PIRA706CORA7C
PIRA704PIRA705CORA7D
PIU501
PIU502
PIU503
PIU504
PIU505
PIU506
PIU507
PIU508
PIU50PAD
COU5
PIU701
PIU702
PIU703
PIU704
PIU705
PIU706
PIU707
PIU708
PIU70PAD
COU7
PIU801
PIU802
PIU803
PIU804
PIU805
PIU806
PIU807
PIU808
PIU80PAD
COU8
PIC5002PIC5102
PIC5202
PIR1502PIR1702
PIRA605PIRA606
PIRA607PIRA608
PIRA705PIRA706
PIRA707PIRA708
PIU508
PIU701
PIU702
PIU703
PIU708
PIU808
PIC5001PIC5101
PIC5201
PIU504
PIU50PAD
PIU704
PIU707
PIU70PAD
PIU804
PIU80PAD
PIU706
NLP1000SCL0
PIU705
NLP1
010S
DA0
PIRA702
PIU805
NLP2
0120
SPBI
O01
PIRA704
PIU802
NLP2
0130
SPBI
O11
PIRA703
PIU803
NLP2
0140
SPBI
O21
PIRA701
PIU807
NLP2
0150
SPBI
O31
PIR1701
PIU506
PIU806
NLP9
020S
PBCL
K0
PIR1501
PIU501
PIU801
NLP9
030S
PBSS
L0
PIRA602
PIU505
NLP9040SPBIO00
PIRA604
PIU502
NLP9050SPBIO10
PIRA603
PIU503
NLP9060SPBIO20
PIRA601
PIU507
NLP9070SPBIO30
am.re
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iResGU
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AA
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4/15
/201
5Author:
Date:
Revi
sion:
Sheet
ofJo
rge
Amod
iov2
.1 P
CB02
Ren
esas
YLC
DR
ZA1H
MC
U M
odul
eSD
RAM
GN
DG
ND
+3V
3
P7_7
/WE1
#/D
QM
LUP7
_6/W
E0#/
DQ
MLL
CK
IO
0.1u
FC5
30.
1uF
C54
0.1u
FC5
50.
1uF
C56
0.1u
FC5
7
GN
DG
ND
GN
DG
ND
GN
D
+3V
3
0.1u
FC5
8
GN
D
0.1u
FC5
9
GN
D4K70
8 1RA8A
4K706 3
RA8C
4K707 2
RA8B
4K705 4
RA8D 4.7K
R18
MT4
8LC
16M
16A
2P
VD
DA
9V
DD
E7
VD
DJ9
VD
DQ
A7
VD
DQ
B3
VD
DQ
C7
VD
DQ
D3
BA
1G
8
BA
0G
7
A11
G2
A10
H9
A12
G1
A9
G3
A8
H1
A7
H2
A6
H3
A5
J2A
4J3
A3
J7
A2
J8
A1
H8
A0
H7
CS
G9
RA
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PIR1901PIR1902COR19
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PIRA803PIRA806CORA8C
PIRA804PIRA805CORA8D
PIRA901PIRA908CORA9A
PIRA902PIRA907CORA9B
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am.re
nesas.com/H
iResGU
I
11
22
33
44
DD
CC
BB
AA
88
4/15
/201
5Author:
Date:
Revi
sion:
Sheet
ofJo
rge
Amod
iov2
.1 P
CB02
Ren
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67
89
1011
1213
1415
1617
1819
2021
2223
2425
2627
2829
3031
3233
3435
3637
3839
4041
4243
4445
4647
4849
5051
5253
5455
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5859
6061
6263
6465
6667
6869
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7273
7475
7677
7879
8081
8283
8485
8687
8889
9091
9293
9495
9697
9899
100
12
J1A
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
101
102
J1B
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PIJ103
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PIJ105
PIJ106
PIJ107
PIJ108
PIJ109
PIJ1010
PIJ1011
PIJ1012
PIJ1013
PIJ1014
PIJ1015
PIJ1016
PIJ1017
PIJ1018
PIJ1019
PIJ1020
PIJ1021
PIJ1022
PIJ1023
PIJ1024
PIJ1025
PIJ1026
PIJ1027
PIJ1028
PIJ1029
PIJ1030
PIJ1031
PIJ1032
PIJ1033
PIJ1034
PIJ1035
PIJ1036
PIJ1037
PIJ1038
PIJ1039
PIJ1040
PIJ1041
PIJ1042
PIJ1043
PIJ1044
PIJ1045
PIJ1046
PIJ1047
PIJ1048
PIJ1049
PIJ1050
PIJ1051
PIJ1052
PIJ1053
PIJ1054
PIJ1055
PIJ1056
PIJ1057
PIJ1058
PIJ1059
PIJ1060
PIJ1061
PIJ1062
PIJ1063
PIJ1064
PIJ1065
PIJ1066
PIJ1067
PIJ1068
PIJ1069
PIJ1070
PIJ1071
PIJ1072
PIJ1073
PIJ1074
PIJ1075
PIJ1076
PIJ1077
PIJ1078
PIJ1079
PIJ1080
PIJ1081
PIJ1082
PIJ1083
PIJ1084
PIJ1085
PIJ1086
PIJ1087
PIJ1088
PIJ1089
PIJ1090
PIJ1091
PIJ1092
PIJ1093
PIJ1094
PIJ1095
PIJ1096
PIJ1097
PIJ1098
PIJ1099
PIJ10100
COJ1
A
PIJ10101
PIJ10102
PIJ10103
PIJ10104
PIJ10105
PIJ10106
PIJ10107
PIJ10108
PIJ10109
PIJ10110
PIJ10111
PIJ10112
PIJ10113
PIJ10114
PIJ10115
PIJ10116
PIJ10117
PIJ10118
PIJ10119
PIJ10120
PIJ10121
PIJ10122
PIJ10123
PIJ10124
PIJ10125
PIJ10126
PIJ10127
PIJ10128
PIJ10129
PIJ10130
PIJ10131
PIJ10132
PIJ10133
PIJ10134
PIJ10135
PIJ10136
PIJ10137
PIJ10138
PIJ10139
PIJ10140
PIJ10141
PIJ10142
PIJ10143
PIJ10144
PIJ10145
PIJ10146
PIJ10147
PIJ10148
PIJ10149
PIJ10150
PIJ10151
PIJ10152
PIJ10153
PIJ10154
PIJ10155
PIJ10156
PIJ10157
PIJ10158
PIJ10159
PIJ10160
PIJ10161
PIJ10162
PIJ10163
PIJ10164
PIJ10165
PIJ10166
PIJ10167
PIJ10168
PIJ10169
PIJ10170
PIJ10171
PIJ10172
PIJ10173
PIJ10174
PIJ10175
PIJ10176
PIJ10177
PIJ10178
PIJ10179
PIJ10180
PIJ10181
PIJ10182
PIJ10183
PIJ10184
PIJ10185
PIJ10186
PIJ10187
PIJ10188
PIJ10189
PIJ10190
PIJ10191
PIJ10192
PIJ10193
PIJ10194
PIJ10195
PIJ10196
PIJ10197
PIJ10198
PIJ10199
PIJ10200
COJ1
B
PIRA10
01PIR
A1008
CORA
10A
PIRA1002
PIRA1007
CORA
10B
PIRA1003
PIRA1006
CORA
10C
PIRA10
04PIR
A1005
CORA
10D
PIJ10196
NL01V18
PIJ1042
NL03V3
PIJ102
PIJ1014
PIJ1034
PIJ1048
PIJ1060
PIJ1074
PIJ1088
PIJ10100
PIJ10102
PIJ10114
PIJ10130
PIJ10138
NL0V
EXT
PIJ1010
NLCK
IO
PIJ1067
NLCLKAUDIO024MHZ
PIJ101
PIJ1013
PIJ1033
PIJ1039
PIJ1045
PIJ1051
PIJ1059
PIJ1075
PIJ1087
PIJ1095
PIJ10101
PIJ10113
PIJ10125
PIJ10139
PIJ10140
PIJ10141
PIJ10143
PIJ10145
PIJ10146
PIJ10147
PIJ10149
PIJ10151
PIJ10152
PIJ10153
PIJ10155
PIJ10157
PIJ10158
PIJ10159
PIJ10161
PIJ10163
PIJ10164
PIJ10167
PIJ10172
PIJ10189
PIJ1035
PIRA10
05
PIJ1037
PIRA1006
PIJ1044
PIJ1046
PIJ1047
PIRA1007
PIJ1049
PIRA10
08PIJ1050
PIJ1062
PIJ1069
PIJ1073
PIJ10124
PIJ10180
PIJ10182
PIJ10184
PIJ10186
PIJ10188
PIJ10190
PIJ10192
PIJ10194
PIJ10198
PIJ1061
NLP0010MD0
BOOT
1
PIJ10176
NLP0030MD0CLKS
PIJ1031
NLP0040MMC
0RST
#PIJ1029
NLP0050ET0RESET#
PIJ10126
NLP1000SCL0
PIJ10128
NLP1
010S
DA0
PIJ10165
NLP1020SCL1
PIJ10169
NLP1
030S
DA1
PIJ10134
NLP1
040C
AN1R
X
PIJ10171
NLP1050IRQ50ET0IRQ
PIJ10132
NLP1060SCL3
PIJ10136
NLP1070SDA3
PIJ1053
NLP1
080A
N00A
LS
PIJ1063
NLP1
090I
RQ30
AUDI
O0IR
Q
PIJ1052
NLP10100IRQ40TOUCH0IRQ
PIJ1057
NLP1
0110
TINT
190P
MOD0
IRQ
PIJ1056
NLP10120TINT200USBH0OC
PIJ1055
NLP1
0130
USBH
05V0
EN
PIJ1058
NLP1
0140
ET0C
OL
PIJ1054
NLP1
0150
LCD0
ON
PIJ1080
NLP2
000E
T0TX
CLK
PIJ1086
NLP2
010E
T0TX
ER
PIJ10104
NLP2
020E
T0TX
EN
PIJ10121
NLP2
030E
T0CR
S
PIJ10129
NLP2
040E
T0TX
D0
PIJ10110
NLP2
050E
T0TX
D1
PIJ10135
NLP2
060E
T0TX
D2
PIJ10120
NLP2
070E
T0TX
D3
PIJ10137
NLP2
080E
T0RX
D0
PIJ10118
NLP2
090E
T0RX
D1
PIJ10122
NLP2
0100
ET0R
XD2
PIJ10131
NLP20110ET0RXD3
PIJ1023
NLP3000LCD0CLK
PIJ1025
NLP3010UART0TX
PIJ1015
NLP3020UART0RX
PIJ1021
NLP3
030E
T0MD
IO
PIJ1040
NLP3
040E
T0RX
CLK
PIJ1036
NLP3
050E
T0RX
ER
PIJ1028
NLP3
060E
T0RX
DV
PIJ1030
NLP3070PMOD0RST#
PIJ1071
NLP3080RZM0LED0RED
PIJ1065
NLP3
090R
ZM0L
ED0G
RN
PIJ1089
NLP3
0100
MMC0
D1
PIJ1093
NLP3
0110
MMC0
D0
PIJ1091
NLP30120MMC0 CLK
PIJ1097
NLP30130MMC0 CMD
PIJ1064
NLP30140MMC0 D3
PIJ1099
NLP3
0150
MMC0
D2
PIJ10103
NLP4000LCD0DATA8
PIJ1066
NLP4010LCD0DATA9
PIJ1068
NLP4020LCD0DATA10
PIJ1070
NLP4
030L
CD0D
ATA1
1
PIJ10105
NLP4
040L
CD0D
ATA1
2
PIJ1078
NLP4
050L
CD0D
ATA1
3
PIJ1082
NLP4060LCD0DATA14
PIJ10111
NLP4
070L
CD0D
ATA1
5
PIJ10115
NLP4080SD0CD
PIJ1084
NLP4090SD0WP
PIJ1092
NLP40100SD0D1
PIJ10119
NLP40110SD0D0
PIJ1096
NLP4
0120
SD0C
LK
PIJ1098
NLP4
0130
SD0C
MD
PIJ10123
NLP40140SD0D3
PIJ10106
NLP4
0150
SD0D
2
PIJ10142
NLP5
000L
CD0D
ATA1
6
PIJ10144
NLP5
010L
CD0D
ATA1
7
PIJ10154
NLP5
020L
CD0D
ATA1
8
PIJ10156
NLP5
030L
CD0D
ATA1
9
PIJ10148
NLP5
040L
CD0D
ATA2
0
PIJ10150
NLP5
050L
CD0D
ATA2
1
PIJ10160
NLP5
060L
CD0D
ATA2
2
PIJ10162
NLP5
070L
CD0D
ATA2
3
PIJ10168
NLP5
090E
T0MD
C
PIJ10170
NLP5
0100
CAN1
TX
PIJ10179
NLP7
000M
D0BO
OT2
PIJ10195
NLP7080IRQ1
PIJ1012
NLP8
08
PIJ1016
NLP8
09
PIJ1011
NLP8
0100
RS0D
ENPIJ109
NLP8
0110
RS0O
N
PIJ1018
NLP8
0120
PWM1
E0BL
EN
PIJ107
NLP8
0130
TOUC
H0RS
T
PIJ1022
NLP8
0140
RSPC
K2PIJ1020
NLP80150SSL20
PIJ1024
NLP9000MOSI2
PIJ1026
NLP9010MISO2
PIJ10166
NLP9
020S
PBCL
K0
PIJ10174
NLP9030SPBSSL0
PIJ10178
NLP9040SPBIO00
PIJ10173
NLP9050SPBIO10
PIJ1032
NLP10000VIO0CLK
PIJ10127
NLP1
0000
VIO0
D5
PIJ1019
NLP10010VIO0VSYNC
PIJ1017
NLP10020VIO0HSYNC
PIJ1038
NLP10030VIO0FLD
PIJ10109
NLP1
0040
VIO0
D0PIJ10107
NLP1
0050
VIO0
D1
PIJ1072
NLP1
0060
VIO0
D2
PIJ1076
NLP1
0070
VIO0
D3
PIJ1090
NLP1
0080
VIO0
D4
PIJ1094
NLP1
0010
0VIO
0D6
PIJ10117
NLP100110VIO0D7
PIJ10108
NLP1
0012
0SSI
SCK
PIJ10133
NLP1
0013
0SSI
WS
PIJ10116
NLP1
0014
0SSI
RxD
PIJ10112
NLP1
0015
0SSI
TxD
PIJ10181
NLP1
1000
LCD0
DATA
7
PIJ10175
NLP1
1010
LCD0
DATA
6
PIJ10183
NLP1
1020
LCD0
DATA
5
PIJ10177
NLP1
1030
LCD0
DATA
4
PIJ10197
NLP1
1040
LCD0
DATA
3
PIJ10199
NLP1
1050
LCD0
DATA
2
PIJ106
NLP11060LCD0DATA1
PIJ104
NLP11070LCD0DATA0
PIJ103
NLP11080LCD0DEN
PIJ105
NLP1
1090
LCD0
VSYN
C
PIJ108
NLP1
1010
0LCD
0HSY
NC
PIJ10187
NLP110120MMC0 D4
PIJ10191
NLP110130MMC0 D5
PIJ10185
NLP110140MMC0 D6
PIJ10193
NLP110150MMC0 D7
PIJ10200
NLPWRDWN#
PIJ1027
NLRESET#
PIJ1085
NLTCK
PIJ1079
NLTD
I
PIJ1081
NLTDO
PIJ1083
NLTMS
PIJ1077
NLTRST#
PIRA10
04NLUSBF0N
PIRA1003
NLUSBF0P
PIRA10
01NLUSBH0N
PIRA1002
NLUSBH0P
PIJ1043
NLVBUSIN0
PIJ1041
NLVBUSIN1
am.re
nesas.com/H
iResGU
I
YLCDRZA1H Technical Reference Manual
Rev 2.20 Jul 21, 2015
Page 44 of 68
12.3 - RZ Module BOM ID Description Package
C1 CL10A106KP8NNND [Samsung] Ceramic 10uF 10V 10% X5R 0603 C2 CL05A475MQ5NQNC [Samsung] Ceramic 4u7 6V3 20% X5R 0402 C3-4,C6,C8-20,C23-26,C28-C38,C40-47,C50-66 CL03A104KP3NNNC [Samsung] Ceramic100n0 10V X5R 10% 0201
C48,C49 CL05C120JB5NNNC [Samsung] Ceramic 12p0 50V C0G 5% 0402 C5 CL10A226MQ8NRNC [Samsung] Ceramic 22uF 6.3V X5R 20% 0603 C7,C21-22,C27,C39 CL05A106MQ5NUNC [Samsung] CER 10uF 6.3V X5R 20% 0402 L1 SRN3015-2R2M [Bourns] 2.2uH 1.8A 72mOhm Inductor SMD L2 SRN3015-1R0Y [Bourns] 1uH 2.35A Inductor 3x3x1.5mm SMD LED1 598-8610-207F [Dialight] LED Bi-Color Red/Green 60/40mcd 1210 R1 ERA-2AED104X [Panasonic] 100K0 0.5% 1/16W 25ppm 0402 R10 ERA-2AED243X [Panasonic ] 24k0 0.5% 1/16W 25ppm 0402 R12,R13 ERJ-2RKF4702X [Panasonic] 47k0 1% 1/10W 100ppm 0402 R14 ERA-2AED223X [Panasonic ] 22k0 0.5% 1/16W 25ppm 0402 R21 ERA-2AED471X [Panasonic ] 470R 0.5% 1/16W 25ppm 0402 R22 ERA-2AED152X [Panasonic] 1K50 0.5% 1/16W 25ppm 0402 R2-4,R15-19 ERA-2AED472X [Panasonic ] 4k70 0.5% 1/16W 25ppm 0402 R5-8 CRCW04020000Z0ED [Vishay] 0R00 1/16W 0402 R9,R11 ERA-2AED562X [Panasonic ] 5k60 0.5% 1/16W 25ppm 0402 RA10 EXB-28V220JX [Panasonic] IsolArr 22R0 4x 5% 200ppm 1/16W 0804 RA1-9 EXB-28V472JX [Panasonic] IsolArr 4k7 5% 200ppm 1/16W 4x0402 0804 U1 IDTP9122 [IDT] Switcher w/I2C Dual Factory Pgm 1.18[1],3.30[2] QFN24 U2 STM1818SWX7F [STM] Reset Monitor 2.88V SOT23 U3 SI5351C [SiLabs] I2C 8 Clock Gen (T/R) Factory Pre-Programmed QFN20 U4 501AAA-12M0000-DAGR [SiLabs] 12MHz Oscillator 50ppm 2x2.5 U5,U8 N25Q256A13EF840E [Micron] NOR Serial FLASH QSPI 256Mbit V-PDFN-8/8x6mm U6 R7S721001VCBG#AC0 [Renesas] RZ A1H MCU 10MB BGA324 PRBG0324GA-A U7 CAT34C02HU4IGT4A [OnSemi] EEPROM I2C 2KBit w/OTP UDFN8 U9,U10 MT48LC16M16A2B4-6A IT:G TR [Micron] 32MB SDRAM 133MHz VFBGA54 X1 ABS07-32.768KHZ-T [Abracon] 32.768 Tuning Fork Crystal 2-SMD
YLCDRZA1H Technical Reference Manual
Rev 2.20 Jul 21, 2015
Page 45 of 68
12.4 - Baseboard Schematics
11
22
33
44
DD
CC
BB
AA
Rene
sas Y
LCDR
ZA1H
Bas
eboa
rd
Revi
sion:
Shee
tofv2
.1 P
CB03
Auth
or:
Jorg
e Am
odio
Date
:
ww
w.se
rious
inte
grat
ed.c
om
112
7/15
/201
5
Syst
em a
nd U
SB H
ost P
ower
Sup
plie
s
TPS5
4232
BO
OT
1
VIN
2
EN3
SS4
VSE
NSE
5C
OM
P6
GN
D7
PH8
U2
B240
AD
5
10uHL1
50V
0.1u
F
C13
0.1u
FC
3
18pF
C15
270p
FC
8
1%1K87
R30.5%
10K
0R
1
37K
4R
2
6.3V
4.7u
FC
5
GN
DG
ND
GN
DG
ND
GN
DG
ND
GN
DG
ND
GN
DG
ND
+5V
GN
D
50V
10uF
C10
50V
10uF
C11
6.3V
22uF
C4
50V
10uF
C12
0.01
uFC1
4
+VIN
2.2u
H
L4
10V
10uF
C16
GN
DG
ND
GN
D
0.1u
FC1
8
GN
DG
ND
USB
H_A
UX
_5V
USB
H_5
V
RZM
-USB
H_O
C#
6.3V
22uF
C17
180K
01%R
6
GN
D
10V
10uF
C6
1uH
L32.2u
H
L2
6.3V
4.7u
FC
1
GN
D
0.1u
FC
2
0.1u
FC
9
GN
DG
ND
GN
DG
ND
+1V
8
+3V
3
+1V
8
+3V
3
POR
B
GN
DG
ND
J2
+5V
10K
0R
4
100K
0
8 1RA1A
GN
D
Prog
ram
for
Mod
e 0
Vout
1 =
1.80
00V
Vout
2 =
3.30
00V
PORB
= P
G1
& P
G2
6.3V
22uF
C7
P912
2
VIN
24
PVIN
19
PVIN
222
PVIN
223
VIN
SEL
4
VR
EF2
VG
ND
1
DEV
SLPI
N5
GPI
33
GPI
O14
14
GPI
O15
15
GPO
1616
GPI
O17
17
GN
D
11
PAD
PGN
D2
19
LX2
21LX
220
FB2
18
PGN
D1
8
LX1
7
FB1
6
U1
+3V
3
RZM
-USB
H_5
V_E
N
TPS2
501
SW1
PGN
D2
IN3
EN4
GN
D5
ILIM
6
ENU
SB7
FAU
LT8
USB
9
AU
X10
PAD
U3
74LV
C1G
157G
V
I03
I11
S6
GN
D2
Y4
VC
C5
U4
GN
D
10K
0R
5
PIC101PIC102COC1
PIC201PIC202COC2
PIC301 PIC302COC3
PIC401PIC402COC4
PIC501PIC502COC
5
PIC601PIC602COC6
PIC701PIC702COC7
PIC801PIC802COC8
PIC901PIC902COC9
PIC1001PIC1002CO
C10
PIC1101PIC1102CO
C11
PIC1201PIC1202CO
C12
PIC1301 PIC1302CO
C13
PIC1401PIC1402CO
C14
PIC1501 PIC1502CO
C15
PIC1601PIC1602COC16
PIC1701PIC1702COC17
PIC1801PIC1802CO
C18
PID50APID50KCOD5
PIJ20SH
PIJ20SL
PIJ20TIP
COJ2
PIL101
PIL102
COL1
PIL201
PIL202
COL2
PIL301
PIL302
COL3
PIL401
PIL402
COL4
PIR101PIR102COR
1
PIR201PIR202 COR2
PIR301PIR302 COR3
PIR401PIR402 COR4
PIR501PIR502 COR5
PIR601PIR602COR6
PIRA101PIRA108 CORA
1A
PIU101
PIU102
PIU103
PIU104
PIU105
PIU106
PIU107
PIU108
PIU109
PIU1011
PIU1014
PIU1015
PIU1016
PIU1017
PIU1018
PIU1
019
PIU1020
PIU1
021
PIU1022
PIU1023
PIU1024
PIU10PAD
COU1
PIU201
PIU202
PIU203
PIU204
PIU205
PIU206
PIU207
PIU208
COU2
PIU301
PIU302
PIU303
PIU304
PIU305
PIU306
PIU307
PIU308
PIU309
PIU3010
PIU30PAD
COU3
PIU401
PIU402
PIU403
PIU404
PIU405
PIU406
COU4
PIC102PIC202
PIL202
PIU106
NL01V8
PIC702PIC902
PIL302
PIR402PIR502
PIU1018
PIU403
PIU405
NL03V3
PIC402PIC502
PIC602
PIC1602
PIL102
PIL401
PIR102PIRA108
PIU109
PIU1022
PIU1023
PIU1024
PIU303
PIU304
PIC1002PIC1102
PIC1202PIC1301
PIJ20TIP
PIU202
NL0VIN
PIC101PIC201
PIC401PIC501
PIC601
PIC701PIC901
PIC1001PIC1101
PIC1201PIC1302
PIC1401PIC1502
PIC1601PIC1701
PIC1801
PID50A
PIJ20SH
PIJ20SL
PIR201PIR301
PIR601
PIU101
PIU104
PIU105
PIU108
PIU1011
PIU1
019
PIU10PAD
PIU207
PIU302
PIU305
PIU30PADPIU401
PIU402
PIC301PID50K
PIL101
PIU208
PIC302
PIU201
PIC801 PIR202PIC802
PIC1501
PIU206
PIC1402
PIU204
PIL201
PIU107
PIL301
PIU1020
PIU1
021
PIL402
PIU301
PIR101 PIR302
PIU205
PIR602PIU306
PIRA101
PIU1014
PIU1015
PIU1017
PIU102
PIU103
PIU203
PIU307
PIU404
PIU1016
NLPO
RB
PIR501
PIU406
NLRZM0USBH05V0EN
PIR401
PIU308
NLRZM0USBH0OC#
PIC1802
PIU309
NLUSBH05V
PIC1702
PIU3010
NLUSBH0AUX05V
11
22
33
44
DD
CC
BB
AA
Rene
sas Y
LCDR
ZA1H
Bas
eboa
rd
Revi
sion:
Shee
tofv2
.1 P
CB03
Auth
or:
Jorg
e Am
odio
Date
:
ww
w.se
rious
inte
grat
ed.c
om
212
7/15
/201
5
LCD
Pow
er
CA
T413
9
VIN
5
SH4
GN
D2
FB3
SW1
U6
10V
10uF
C37
0.1u
FC3
9
GN
DG
ND
GN
DG
ND
RZM
-BLE
N1K
101%R1
6
GN
D
50V
1uF
C38
GN
D
BL_
LED
+
BL_
LED
-
22uHL6
DFL
S130
L
D6
100K
0
7 2RA1B
+5V
GN
DG
ND
GN
DG
ND
33K
0R1
4
GN
DG
ND
1uF
C32
GN
D
499KR8
0.00
1uF
C19
GN
DG
ND
GN
D
LCD
_VG
L
0.1u
FC2
7
GN
DG
ND
GN
DG
ND
1uF
C33
GN
D
LCD
_AV
DD
LCD
_VG
H
LCD
_VC
OM
+3V
3
GN
DG
ND
3.9u
H
L5
22uF
C24
22uF
C36
0.33
uFC2
50.
33uF
C34
0.33
uFC2
1
0.33
uFC3
5
0.33
uF
C23
0.33
uF
C22
22pF
C29
470p
FC2
8
33pF
C20
220n
FC2
60.
01uF
C30
0.01
uFC3
1
TPS6
5150
VIN7
DR
VN
21
SW8
GD
2
SUP
12
IN
14
SW9
FBN
24
REF
23
GN
D22
PGN
D10
PGN
D11
CTR
L16
ADJ
17
DLY1
5
DLY2
6
FDLY
3
FB4
DR
VP
20
FBP
15
CPI
19
VG
H18
VC
OM
13
PAD
CO
MP
1
U5
9.74
V
22.7
V
3.3V
-8V
1%499K
R9
1%499K
R10
1%1M00
R11
1%56K
2R1
3
1%75K
0R1
2
1%3R0
R17
RB
481K
21
D1A
RB
481K
3 4
D1B
RB
481K
21
D2A
RB
481K
34
D2B
RB
481K
21
D3A
RB
481K
21
D4A R
B48
1K
3 4
D4B
1%66K
5R1
5
255K
0
R7
PIC1901
PIC1902
COC1
9
PIC2001PIC2002CO
C20
PIC2101PIC2102COC21
PIC2201
PIC2202COC22
PIC2301
PIC2302CO
C23
PIC2401PIC2402CO
C24
PIC2501PIC2502CO
C25
PIC2601PIC2602CO
C26
PIC2701PIC2702CO
C27
PIC2801PIC2802CO
C28
PIC2901PIC2902CO
C29
PIC3001PIC3002CO
C30
PIC3101 PIC3102COC31
PIC3201 PIC3202CO
C32
PIC3301 PIC3302CO
C33
PIC3401PIC3402COC34
PIC3501PIC3502COC35
PIC3601PIC3602COC36
PIC3701PIC3702CO
C37
PIC3801PIC3802COC38
PIC3901PIC3902CO
C39
PID101
PID102COD1A
PID103 PID104
COD1B
PID201
PID202COD2A
PID203
PID204
COD2B
PID301
PID302COD3A
PID401
PID402COD4A
PID403 PID404
COD4B
PID60A
PID60K
COD6
PIL501
PIL502
COL5
PIL601
PIL602
COL6
PIR7
01PIR702
COR7
PIR8
01PIR802
COR8
PIR901PIR902 COR9
PIR1001PIR1002 COR
10
PIR1101PIR1102COR11
PIR1201PIR1202 COR1
2
PIR1301PIR1302COR13
PIR1401PIR1402 COR14
PIR1501 PIR1502COR15
PIR1601
PIR1602
COR1
6
PIR1701PIR1702CO
R17
PIRA102PIRA107 CORA
1B
PIU501
PIU502
PIU503
PIU504
PIU505PIU506
PIU507PIU508
PIU509
PIU5
010
PIU5
011
PIU5012
PIU5013
PIU5014
PIU5
015
PIU5016
PIU5017
PIU5
018
PIU5
019
PIU5020
PIU5021
PIU5
022
PIU5023
PIU5024
PIU50PAD
COU5
PIU601
PIU602PIU603
PIU604
PIU605COU
6
PIC2402PIC2702
PIL501 PIU507
PIU5016
PIC3702PIC3902
PIL601
PIU605
PIC3802
PID60K
NLBL0LED0
PIR1602
PIR1702
NLBL0LED0
PIC1901
PIC2401PIC2501
PIC2601PIC2801
PIC2901PIC3001
PIC3102PIC3202
PIC3302PIC3401
PIC3501PIC3601
PIC3701PIC3801
PIC3901
PID404
PIR7
01
PIR1301PIR1502
PIR1701PIRA102
PIU5
010
PIU5
011
PIU5
022
PIU50PAD
PIU602
PIC2002
PIC3201PIC3602
PID101
PID103
PIR802
PIR902
PIU5012
NLLCD0AVDD
PIC3301
PIU5013
NLLCD0VCOM
PIU5
018
NLLCD0VGH
PIC2502
PID402
PIR1002
NLLC
D0VG
L
PIC1902PIR702
PIR8
01
PIU5014PIC2001
PIR901 PIR1501
PIU504
PIC2101
PID204PID302
PIC2102
PID102
PIL502 PIU508
PIU509
PIC2201
PIU5021
PIC2202
PID401
PID403PIC2301
PID104
PID202
PIC2302
PIU5020
PIC2602PIR1201
PIU5023
PIC2701
PIU503
PIC2802PIR1401
PIC2902PIU5017
PIC3002
PIU505
PIC3101
PIU506
PIC3402
PID201PID203
PIC3502
PID301
PIR1102
PIU5
019
PID60A
PIL602 PIU601
PIR1001 PIR1202
PIU5024
PIR1101 PIR1302
PIU5
015
PIR1402
PIU501
PIR1601
PIU603
PIU502
PIRA107
PIU604
NLRZM0BLEN
11
22
33
44
DD
CC
BB
AA
Rene
sas Y
LCDR
ZA1H
Bas
eboa
rd
Revi
sion:
Shee
tofv2
.1 P
CB03
Auth
or:
Jorg
e Am
odio
Date
:
ww
w.se
rious
inte
grat
ed.c
om
312
7/15
/201
5
1 2 3 4 5 6 7 8
J4
LCD
Inte
rfac
e
DS9
0C38
3B
TxIN
152
TxIN
254
TxIN
355
TxIN
456
TxIN
52
TxIN
63
TxIN
74
TxIN
86
TxIN
97
TxIN
108
TxIN
1110
TxIN
1211
TxIN
1312
TxIN
1414
TxIN
1515
TxIN
1616
TxIN
1718
TxIN
1819
TxIN
1920
TxIN
2022
TxIN
2123
TxIN
2224
TxIN
2325
TxIN
2427
TxIN
2528
TxIN
2630
TxIN
2750
TxC
LK IN
31
VC
C1
LVD
S V
cc44
PLL
Vcc
34
PWR
DW
N32
LVD
S G
ND
49
LVD
S G
ND
43
LVD
S G
ND
36
TxO
UT
0-48
TxO
UT
0+47
TxO
UT
1-46
TxO
UT
1+45
TxO
UT
2-42
TxO
UT
2+41
TxC
LKO
UT-
40
TxC
LKO
UT+
39Tx
OU
T 3-
38
TxO
UT3
+37
GN
D5
PLL
GN
D33
PLL
GN
D35
VC
C9
VC
C17
VC
C26
GN
D13
GN
D21
GN
D29
GN
D53
TxIN
051
U7
RZM
-LC
D_D
ATA
18R
ZM-L
CD
_DA
TA19
RZM
-LC
D_D
ATA
20
RZM
-LC
D_D
ATA
21
RZM
-LC
D_D
ATA
22
RZM
-LC
D_D
ATA
23
RZM
-LC
D_D
ATA
17
RZM
-LC
D_D
ATA
10
RZM
-LC
D_D
ATA
11R
ZM-L
CD
_DA
TA12
RZM
-LC
D_D
ATA
8R
ZM-L
CD
_DA
TA9
RZM
-LC
D_D
ATA
13
RZM
-LC
D_D
ATA
14R
ZM-L
CD
_DA
TA15
RZM
-LC
D_D
ATA
2
RZM
-LC
D_D
ATA
0
RZM
-LC
D_D
ATA
1
RZM
-LC
D_D
ATA
3R
ZM-L
CD
_DA
TA4
RZM
-LC
D_D
ATA
5
RZM
-LC
D_D
ATA
6R
ZM-L
CD
_DA
TA7
RZM
-LC
D_H
SYN
CR
ZM-L
CD
_VSY
NC
RZM
-LC
D_D
EN
RZM
-LC
D_D
ATA
16
RZM
-LC
D_C
LK
R2
R3
R4
R5
R6
R1
R7
G2
G3
G4
G0
G1
G5
G6
G7
B2
B0
B1
B3
B4
B5
B6
B7
HSY
NC
VSY
NC
DEN
R0
CLK
GN
D
GN
D
0.1u
FC4
00.
1uF
C41
0.1u
FC4
20.
1uF
C43
0.1u
FC4
4
GN
DG
ND
GN
DG
ND
GN
D
+3V
3
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40
J3 RxIN0-
VCOM
VDD
VDD
NC
NC
NC
GND
GND
GND
GND
GND
GND
GND
GND
NC
NC
NC
NC
NC
NC
NC
NC
NC
LED+
LED+
VGH
VGL
RxIN0+
RxIN1-
RxIN1+
RxIN2-
RxIN2+
RxC
LK-
RxC
LK+
RxIN3-
RxIN3+
AVDD
LED-
LED-
GN
D
LVD
S_TX
0_N
LVD
S_TX
0_P
LVD
S_TX
1_N
LVD
S_TX
1_P
LVD
S_TX
2_N
LVD
S_TX
2_P
LVD
S_C
LK_N
LVD
S_C
LK_P
LVD
S_TX
3_N
LVD
S_TX
3_P
BL_
LED
-
BL_
LED
+
VDD
GND
RST
SCL
SDA
INT
NC
NC
0.1u
FC4
8
GN
D
RZM
-TO
UC
H_R
STR
ZM-S
CL1
RZM
-SD
A1
RZM
-TO
UC
H_I
RQ
0.1u
FC4
5
GN
D
10K
0R1
8
I2C
AD
DR
: 0x5
C
33R
81
RA2A
33R
72
RA2B
33R
63
RA2C
33R
54
RA2D
33R
81
RA3A
33R
72
RA3B
33R
63
RA3C
33R
54
RA3D
33R
81
RA4A
33R
72
RA4B
33R
63
RA4C
33R
54
RA4D
33R
81
RA5A
33R
72
RA5B
33R
63
RA5C
33R
54
RA5D
33R
81
RA6A
33R
72
RA6B
33R
63
RA6C
33R
54
RA6D
33R
81
RA7A
33R
72
RA7B
33R
63
RA7C
33R
54
RA7D
33R
81
RA8A
33R
72
RA8B
33R
63
RA8C
33R
54
RA8D
LCD
_VG
L
LCD
_AV
DD
LCD
_VG
H
LCD
_VC
OM
+3V
3
0.1u
FC4
6
GN
D
1uF
C47
GN
D
4K70
72
RA18
B4K
70
81
RA18
A
PIC4001PIC4002CO
C40
PIC4101PIC4102COC41
PIC4201PIC4202COC42
PIC4301PIC4302CO
C43
PIC4401PIC4402COC44
PIC4501PIC4502COC45
PIC4601PIC4602COC46
PIC4701PIC4702COC47
PIC4801PIC4802COC48
PIJ301
PIJ302
PIJ303
PIJ304
PIJ305
PIJ306
PIJ307
PIJ308
PIJ309
PIJ3010
PIJ3011
PIJ3012
PIJ3013
PIJ3014
PIJ3015
PIJ3016
PIJ3017
PIJ3018
PIJ3019
PIJ3020
PIJ3021
PIJ3022
PIJ3023
PIJ3024
PIJ3025
PIJ3026
PIJ3027
PIJ3028
PIJ3029
PIJ3030
PIJ3031
PIJ3032
PIJ3033
PIJ3034
PIJ3035
PIJ3036
PIJ3037
PIJ3038
PIJ3039
PIJ3040COJ3
PIJ401
PIJ402
PIJ403
PIJ404
PIJ405
PIJ406
PIJ407
PIJ408COJ4
PIR1801PIR1802 COR1
8
PIRA201
PIRA208
CORA
2APIRA202
PIRA207
CORA
2B PIRA203
PIRA206
CORA
2C
PIRA204
PIRA205
CORA
2D PIRA301
PIRA308
CORA
3APIRA302
PIRA307
CORA
3B PIRA303
PIRA306
CORA
3C
PIRA304
PIRA305
CORA
3D PIRA401
PIRA408
CORA
4APIRA402
PIRA407
CORA
4B PIRA403
PIRA406
CORA
4C
PIRA404
PIRA405
CORA
4D PIRA501
PIRA508
CORA
5APIRA502
PIRA507
CORA
5B PIRA503
PIRA506
CORA
5C
PIRA504
PIRA505
CORA
5D PIRA601
PIRA608
CORA
6APIRA602
PIRA607
CORA
6B PIRA603
PIRA606
CORA
6C
PIRA604
PIRA605
CORA
6D PIRA701
PIRA708
CORA
7APIRA702
PIRA707
CORA
7B PIRA703
PIRA706
CORA
7C PIRA704
PIRA705
CORA
7D
PIRA801
PIRA808
CORA
8A PIRA802
PIRA807
CORA
8B
PIRA803
PIRA806
CORA
8CPIRA804
PIRA805
CORA
8D
PIRA1801 PIRA1808
CORA
18A
PIRA1802 PIRA1807
CORA
18B
PIU701
PIU702
PIU703
PIU704
PIU705
PIU706
PIU707
PIU708
PIU709
PIU7010
PIU7
011
PIU7012
PIU7
013
PIU7
014
PIU7015
PIU7016
PIU7
017
PIU7018
PIU7019
PIU7
020
PIU7021
PIU7022
PIU7
023
PIU7024
PIU7
025
PIU7026
PIU7027
PIU7028
PIU7
029
PIU7
030
PIU7031
PIU7032
PIU7033
PIU7
034
PIU7
035
PIU7036
PIU7
037
PIU7038
PIU7039
PIU7040
PIU7041
PIU7
042
PIU7043
PIU7044
PIU7
045
PIU7046
PIU7047
PIU7
048
PIU7049
PIU7050
PIU7
051
PIU7052
PIU7053
PIU7
054
PIU7055
PIU7056COU
7
PIC4002PIC4102
PIC4202PIC4302
PIC4402PIC4502
PIC4602PIC4702
PIC4802
PIJ302
PIJ303
PIJ401
PIR1802
PIRA1801PIRA1802
PIU701
PIU709
PIU7
017
PIU7026
PIU7
034
PIU7044
PIJ3039
PIJ3040
NLBL0LED0
PIJ3031
PIJ3032
NLBL
0LED
0
PIC4001PIC4101
PIC4201PIC4301
PIC4401PIC4501
PIC4601PIC4701
PIC4801
PIJ307
PIJ3010
PIJ3013
PIJ3016
PIJ3019
PIJ3022
PIJ3025
PIJ3030
PIJ402
PIU705
PIU7
013
PIU7021
PIU7
025
PIU7
029
PIU7033
PIU7
035
PIU7036
PIU7043
PIU7049
PIU7053
PIJ3029
NLLC
D0AV
DD
PIJ301
NLLC
D0VC
OM
PIJ3038
NLLC
D0VG
H
PIJ3035
NLLCD0VGL
PIJ3017
PIU7040
NLLVDS0CLK0N
PIJ3018
PIU7039
NLLVDS0CLK0P
PIJ308
PIU7
048
NLLVDS0TX00N
PIJ309
PIU7047
NLLVDS0TX00P
PIJ3011
PIU7046
NLLVDS0TX10N
PIJ3012
PIU7
045
NLLVDS0TX10P
PIJ3014
PIU7
042
NLLVDS0TX20N
PIJ3015
PIU7041
NLLVDS0TX20P
PIJ3020
PIU7038
NLLVDS0TX30N
PIJ3021
PIU7
037
NLLVDS0TX30P
PIJ304
PIJ305
PIJ306
PIJ3023
PIJ3024
PIJ3026
PIJ3027
PIJ3028
PIJ3033
PIJ3034
PIJ3036
PIJ3037
PIJ407
PIJ408
PIR1801
PIU7032
PIRA205
PIU7055
PIRA206
PIU7
054
PIRA207
PIU7052
PIRA208
PIU7
051
PIRA305
PIU704
PIRA306
PIU703
PIRA307
PIU702
PIRA308
PIU7056
PIRA405
PIU7010
PIRA406
PIU708
PIRA407
PIU707
PIRA408
PIU706
PIRA505
PIU7015
PIRA506
PIU7
014
PIRA507
PIU7012
PIRA508
PIU7
011
PIRA605
PIU7
020
PIRA606
PIU7019
PIRA607
PIU7018
PIRA608
PIU7016
PIRA705
PIU7027
PIRA706
PIU7024
PIRA707
PIU7
023
PIRA708
PIU7022
PIRA805
PIU7
030
PIRA806
PIU7031
PIRA807
PIU7050
PIRA808
PIU7028
PIRA803
NLRZM0LCD0CLK
PIRA504
NLRZ
M0LC
D0DA
TA0
PIRA603
NLRZM0LCD0DATA1
PIRA604
NLRZ
M0LC
D0DA
TA2
PIRA701
NLRZM0LCD0DATA3
PIRA702
NLRZ
M0LC
D0DA
TA4
PIRA703
NLRZ
M0LC
D0DA
TA5
PIRA601
NLRZM0LCD0DATA6
PIRA602
NLRZ
M0LC
D0DA
TA7
PIRA304
NLRZ
M0LC
D0DA
TA8
PIRA401
NLRZ
M0LC
D0DA
TA9
PIRA402
NLRZM0LCD0DATA10
PIRA501
NLRZM0LCD0DATA11
PIRA502
NLRZM0LCD0DATA12
PIRA503
NLRZM0LCD0DATA13
PIRA403
NLRZM0LCD0DATA14
PIRA404
NLRZM0LCD0DATA15
PIRA201
NLRZM0LCD0DATA16
PIRA202
NLRZM0LCD0DATA17
PIRA203
NLRZM0LCD0DATA18
PIRA204
NLRZM0LCD0DATA19
PIRA301
NLRZM0LCD0DATA20
PIRA303
NLRZM0LCD0DATA21
PIRA802
NLRZM0LCD0DATA22
PIRA302
NLRZM0LCD0DATA23
PIRA804
NLRZ
M0LC
D0DE
N
PIRA704
NLRZ
M0LC
D0HS
YNC
PIRA801
NLRZM0LCD0VSYNC
PIJ404
NLRZ
M0SC
L1
PIJ405
NLRZM0SDA1
PIJ406
PIRA1808
NLRZM0TOUCH0IRQ
PIJ403
PIRA1807NLRZM0TOUCH0RST
11
22
33
44
DD
CC
BB
AA
Rene
sas Y
LCDR
ZA1H
Bas
eboa
rd
Revi
sion:
Shee
tofv2
.1 P
CB03
Auth
or:
Jorg
e Am
odio
Date
:
ww
w.se
rious
inte
grat
ed.c
om
412
7/15
/201
5
MM
C, S
D Ca
rd, R
TCC,
Cry
pto
RZM
-MM
C_C
MD
RZM
-MM
C_D
3R
ZM-M
MC_
D2
RZM
-MM
C_D
1R
ZM-M
MC_
D0
RZM
-MM
C_D
7R
ZM-M
MC_
D6
RZM
-MM
C_D
5R
ZM-M
MC_
D4
GN
DG
ND
RZM
-RES
ET#
47K07 2RA12B
47K05 4RA11D
47K08 1RA12A
47K08 1RA11A
47K07 2RA11B
47K06 3RA11C
47K06 3RA12C
47K05 4RA12D
10K
0R1
90.
1uF
C51
0.1u
FC5
20.
1uF
C49
0.1u
FC5
0
GN
DG
ND
GN
DG
ND
+3V
3
+3V
3 RZM
-MM
C_C
LK
22K081
RA10A
22K072
RA10B
0.1u
FC5
8
22R
07
2RA
13B
22R
06
3RA
13C
CS/
D3
1D
in/C
MD
2
Vss
3
Vdd
4
CLK
5
Vss
6D
out/D
07
D1
8
D2
9
CD
etC
D
WPS
WP
SD1
GN
DG
ND
GN
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VSS H10
VSS K8
VSSQ C4VSSQ N2
VSSQ N5
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8
PIBAT10NEGPIBAT10POSCOBAT1
PIC4901PIC4902COC49
PIC5001PIC5002COC50
PIC5101PIC5102COC51
PIC5201PIC5202COC52
PIC5301PIC5302COC53
PIC5401PIC5402COC54
PIC5501PIC5502COC55
PIC5601PIC5602COC56
PIC5701PIC5702COC57
PIC5801PIC5802COC58
PIC5901PIC5902CO
C59
PIC6001PIC6002CO
C60
PIC6101PIC6102CO
C61
PIR1901PIR1902 COR1
9
PIR2001
PIR2002
COR2
0
PIR2101PIR2102 COR2
1
PIRA901 PIRA908CORA9APIRA902 PIRA907
CORA9BPIRA903 PIRA906
CORA9CPIRA1001 PIRA1008CORA10A
PIRA1002 PIRA1007
CORA10BPIRA1003 PIRA1006
CORA10CPIRA1004 PIRA1005
CORA10D
PIRA1101PIRA1108CORA11A
PIRA1102PIRA1107CORA11B
PIRA1103PIRA1106CORA11C
PIRA1104PIRA1105CORA11D
PIRA1201PIRA1208CORA12A
PIRA1202PIRA1207CORA12B
PIRA1203PIRA1206CORA12C
PIRA1204PIRA1205CORA12D
PIRA1302
PIRA1307
CORA13B
PIRA1303
PIRA1306
CORA13C
PISD
101
PISD102
PISD
103
PISD104
PISD105
PISD106
PISD107
PISD
108
PISD109
PISD10C1PISD10C2
PISD10CD
PISD10WP
COSD1
PIU80A3
PIU80A4
PIU80A5
PIU80B2
PIU80B3
PIU80B4
PIU80B5
PIU80B6
PIU80C2
PIU80C4
PIU80C6
PIU80E6
PIU80E7
PIU80F5
PIU80G5PIU80H10
PIU80J10
PIU80K5
PIU80K8
PIU80K9
PIU80M4
PIU80M5
PIU80M6
PIU80N2
PIU80N4
PIU80N5
PIU80P3
PIU80P4
PIU80P5
PIU80P6
COU8
PIU901
PIU902
PIU903
PIU904
PIU905
PIU906
PIU907
PIU908CO
U9
PIU1004
PIU1005
PIU1006
PIU1
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PIU100PAD
COU10
PIX101 PIX102COX1
PIC4902PIC5002
PIC5102PIC5202
PIC5502PIC5602
PIC5702PIC5802
PIC6102
PIR1902
PIR2102
PIRA901PIRA902
PIRA903PIRA1001
PIRA1002PIRA1003
PIRA1004PIRA1105
PIRA1106PIRA1107
PIRA1108PIRA1205
PIRA1206PIRA1207
PIRA1208
PISD104
PIU80C6
PIU80E6
PIU80F5
PIU80J10
PIU80K9
PIU80M4
PIU80N4
PIU80P3
PIU80P5
PIU1
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NL03V3
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PIC4901PIC5001
PIC5101PIC5201
PIC5301PIC5401
PIC5501PIC5601
PIC5701PIC5801
PIC5901PIC6001
PIC6101
PISD
103
PISD106
PISD10C1PISD10C2
PIU80C4PIU80E7PI
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PIU80N2PIU80N5PIU80P4
PIU80P6
PIU904
PIU1004
PIU100PADPIBAT10POS
PIU903
PIC5302PIC5402
PIU80C2
PIC5902PIC6002PIR2101
PIU908
PIR2002
PIU80M6
PIRA1306
PISD10WP
PIRA1307
PISD10CD
PIU901
PIX101PIU902
PIX102
PIU907
PIR2001
NLRZ
M0MM
C0CL
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PIR1901
PIU80M5
NLRZM0MMC0CMD
PIRA1104
PIU80A3
NLRZM0MMC0D0
PIRA1201
PIU80A4
NLRZM0MMC0D1
PIRA1202
PIU80A5
NLRZM0MMC0D2
PIRA1102
PIU80B2
NLRZM0MMC0D3
PIRA1103
PIU80B3
NLRZM0MMC0D4
PIRA1101
PIU80B4
NLRZM0MMC0D5
PIRA1203
PIU80B5
NLRZM0MMC0D6
PIRA1204
PIU80B6
NLRZM0MMC0D7
PIU80K5
NLRZM0RESET#
PIU906
PIU1006
NLRZ
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PIRA1006
PIRA1302
NLRZM0SD0CD
PISD105
NLRZM0SD0CLK
PIRA906
PISD102
NLRZM0SD0CMD
PIRA1008
PISD107
NLRZM0SD0D0
PIRA1007
PISD
108
NLRZM0SD0D1
PIRA908
PISD109
NLRZM0SD0D2
PIRA907
PISD
101
NLRZM0SD0D3
PIRA1005
PIRA1303
NLRZM0SD0WP
PIU905
PIU1005
NLRZM0SDA0
11
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Rene
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Revi
sion:
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.1 P
CB03
Auth
or:
Jorg
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Date
:
ww
w.se
rious
inte
grat
ed.c
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512
7/15
/201
5
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LED
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9
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10
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C66
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C62
PIC6301 PIC6302COC63
PIC6401 PIC6402COC64
PIC6501PIC6502CO
C65
PIC6601 PIC6602COC66
PIC6701PIC6702COC67
PIC6801 PIC6802COC68
PIC6901 PIC6902COC69
PIC7001 PIC7002CO
C70
PIC7101 PIC7102CO
C71
PIFB101 PIFB102
COFB1
PIJ501
PIJ502
PIJ503
PIJ504
PIJ505
PIJ506
PIJ507
PIJ508
PIJ509
PIJ5010
PIJ50C1PIJ50C2
COJ5
PIR2201PIR2202 COR22
PIR2301PIR2302COR23
PIR2401PIR2402CO
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PIRA1501
PIRA1508
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PIU1101
PIU1102
PIU1
103
PIU1
104
PIU1
105
PIU1106
PIU1107
PIU1
108
PIU1109
PIU11010
PIU11011
PIU11012
PIU11013
PIU11014
PIU11015
PIU11016
PIU11017
PIU11018
PIU11019
PIU11020
PIU11021
PIU11022
PIU11023
PIU11024
PIU11025
PIU11026
PIU11027
PIU11028
PIU11029
PIU11030
PIU11031
PIU11032
PIU110PAD
COU11
PIU1201
PIU1202
PIU1203
PIU1204
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PIU1301
PIU1302
PIU1303
PIU1304CO
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PIC6601PIC6702
PIC7001PIC7101
PIFB101PIR2202
PIR2302PIRA1407
PIU11017
PIU1201
PIU1204
PIU1304
PIC6201PIC6302
PIC6402PIC6501
PIC6602PIC6701
PIC6802PIC6902
PIC7002PIC7102
PIJ50C1PIJ50C2
PIR2401
PIU1101PIU110PAD
PIU1202
PIU1302
PIC6202PIC6301
PIU1102
PIC6401PIC6502
PIFB102
PIU1
103
PIC6801
PIJ501
PIC6901
PIJ506
PIJ502
PIU1107
PIJ503
PIU1106
PIJ504
PIU1
105
PIJ505
PIU1
104
PIJ507
PIU11030
PIJ508
PIR2301
PIJ509
PIR2201
PIJ5010
PIU11031
PIR2402
PIU11010
PIRA1501
PIU11022
PIRA1502
PIU11020
PIRA15
03PIU11019
PIRA1504
PIU11018
PIRA16
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PIRA1602
PIU11015
PIRA1603
PIU11014
PIRA16
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PIRA1703
PIU11029
PIRA17
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PIU1
108
PIU1109
PIU1203
PIRA17
05NLRZM0ET0COL
PIRA1706
NLRZM0ET0CRS
PIRA1402
PIU11021
NLRZM0ET0IRQ
PIU11012
NLRZM0ET0MDC
PIU11011
NLRZM0ET0MDIO
PIRA15
06NLRZM0ET0RXCLK
PIRA16
08NLRZM0ET0RXD0
PIRA1607
NLRZM0ET0RXD1
PIRA1606
NLRZM0ET0RXD2
PIRA16
05NLRZM0ET0RXD3
PIRA1505
NLRZM0ET0RXDV
PIRA1507
NLRZM0ET0RXER
PIRA1508
NLRZM0ET0TXCLK
PIU11024
NLRZM0ET0TXD0
PIU11025
NLRZM0ET0TXD1
PIU11026
NLRZM0ET0TXD2
PIU11027
NLRZM0ET0TXD3
PIU11023
NLRZM0ET0TXEN
PIU11032
NLRZM0RESET#
PIU1301
NLRZ
M0SC
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NLRZM0SDA0
11
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Rene
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ZA1H
Bas
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Revi
sion:
Shee
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.1 P
CB03
Auth
or:
Jorg
e Am
odio
Date
:
ww
w.se
rious
inte
grat
ed.c
om
612
7/15
/201
5
USB
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PIFB202
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PIJ701
PIJ702
PIJ703
PIJ704
PIJ70C1PIJ70C2
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PIJ801
PIJ802
PIJ803
PIJ804
PIJ805
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PIR2501
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PIU1
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PIU1502
PIU1
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PIU1505
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PIU1601
PIU1602
PIU1603
PIU1604
PIU1
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PIC7601
PIJ704
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PIJ805
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PIU1504
PIU1604
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PIJ801
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PIFB202
PIJ701
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PIJ804
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PIU1602
PIJ802
PIU1603
NLRZM0USBF0N
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11
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Rene
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ZA1H
Bas
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Revi
sion:
Shee
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.1 P
CB03
Auth
or:
Jorg
e Am
odio
Date
:
ww
w.se
rious
inte
grat
ed.c
om
712
7/15
/201
5
Cam
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PIC7301PIC7302CO
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PIJ601
PIJ602
PIJ603
PIJ604
PIJ605
PIJ606
PIJ607
PIJ608
PIJ609
PIJ6010
PIJ6011
PIJ6012
PIJ6013
PIJ6014
PIJ6015
PIJ6016
PIJ6017
PIJ6018COJ6
PIU1401
PIU1402
PIU1403
PIU1404
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PIC7202
PIC7302
PIJ602
PIU1401
PIU1404
PIJ607
PIU1403 NLCAM0XCLK
PIC7201
PIC7301
PIJ601
PIJ6017
PIU1402
PIJ6018
NLRZM0RESET#
PIJ604
NLRZM0SCL0
PIJ603
NLRZM0SDA0
PIJ608
NLRZM0VIO0CLK
PIJ6015
NLRZM0VIO0D0
PIJ6016
NLRZM0VIO0D1
PIJ6013
NLRZM0VIO0D2
PIJ6014
NLRZM0VIO0D3
PIJ6011
NLRZM0VIO0D4
PIJ6012
NLRZM0VIO0D5
PIJ609
NLRZM0VIO0D6
PIJ6010
NLRZM0VIO0D7
PIJ605
NLRZM0VIO0HSYNC
PIJ606
NLRZM0VIO0VSYNC
11
22
33
44
DD
CC
BB
AA
Rene
sas Y
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ZA1H
Bas
eboa
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Revi
sion:
Shee
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.1 P
CB03
Auth
or:
Jorg
e Am
odio
Date
:
ww
w.se
rious
inte
grat
ed.c
om
812
7/15
/201
5
Indu
stria
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wor
king
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PIC7901 PIC7902CO
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PIC8001 PIC8002CO
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PIC8101 PIC8102CO
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PIU1701
PIU1702
PIU1703
PIU1704
PIU1705
PIU17011
PIU17012
PIU17014
PIU17015PIU17016
PIU17017
PIU17019
PIU17020
PIU17021
PIU17027
PIU17028
PIU17029
PIU17030
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PIU1801
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PIU1803
PIU1804
PIU1805
PIU1806
PIU1807
PIU1808
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PIC8401
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PIRA1907PIRA1908
PIU17031
PIU1805
PIC7801
PIC8302
PIU17034
PIU1803
PIJ903
PIU1702
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.1 P
CB03
Auth
or:
Jorg
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odio
Date
:
ww
w.se
rious
inte
grat
ed.c
om
912
7/15
/201
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PIC8801 PIC8802CO
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PIC8901PIC8902CO
C89
PIC9001PIC9002CO
C90
PIC9101 PIC9102CO
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PIC9201PIC9202CO
C92
PIC9301PIC9302CO
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PIC9401PIC9402CO
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PIC9501
PIC9502
COC9
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PIC9601
PIC9602
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PIC9701
PIC9702
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PIC9801
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PIC9901PIC9902CO
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PIC10001PIC10002COC100
PIC10101PIC10102COC101
PIC10201PIC10202COC102
PIC10301PIC10302COC103
PIC10401PIC10402COC104
PIC10501 PIC10502COC105
PIC10601PIC10602COC106
PIC10701PIC10702COC107
PIFB301
PIFB302
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PIJ1001
PIJ1
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PIJ1
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PIJ1004
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PIJ1
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PIJ1201
PIJ1
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PIJ1301
PIJ1302
PIJ1303
PIJ1304
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PIJ1401
PIJ1402
PIJ1403
PIJ1404
PIJ1
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PIR2701PIR2702 COR2
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PIR2801
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PIU1901
PIU1902
PIU1903
PIU1904
PIU1905
PIU1906
PIU1907
PIU1908
PIU1
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PIU19010
PIU19015
PIU19016
PIU19017
PIU19018PIU19019
PIU19020
PIU19021
PIU19022
PIU19023
PIU19024
PIU19025
PIU19026PIU19027
PIU19030PIU19031
PIU19032
PIU19033
PIU19034
PIU19035
PIU19036
PIU19037
PIU19038
PIU19039
PIU19040
PIU19041
PIU19042
PIU19043
PIU19044
PIU19045
PIU19047
PIU19048
PIU19049
PIU19050
PIU19051
PIU19052
PIU19053
PIU19054
PIU19055
PIU19056
PIU190PAD
COU19
PIC9101PIC9202
PIC9302
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PIU19025PIU19053
PIC8801PIC8902
PIC9002PIR2702
PIU1906PIU19055
PIFB301
PIC9601
PIJ1302
NLAIN1
PIC9701
PIJ1303
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PIC8501PIC8601
PIC8701
PIC8802PIC8901
PIC9001PIC9102
PIC9201PIC9301
PIC9401
PIC9901PIC10001
PIC10101PIC10201
PIC10301PIC10401
PIC10502PIC10601
PIC10701
PIJ1001
PIJ1301
PIJ1404
PIU1903PIU19016PIU1
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PIU19034
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PIC8502PIC8602
PIC8702PIFB302
PIU19018PIU19019
PIC9402
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PIU19050
PIC9501
PIJ1401
PIR2801
PIU19045
PIC9502
PIC10102
PIU19040
PIC9602
PIC10002
PIU19037
PIC9702
PIC9902
PIU19036
PIC9801PIU19027
PIC9802PIU19026
PIC10202PIU19032
PIC10302PIU19031
PIC10402
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PIC10501
PIU19048
PIC10602
PIJ1402
PIU19033
PIC10702
PIJ1403
PIU19035
PIJ1
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PIU19023
PIJ1
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PIU19024
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PIU19020
PIJ1102
PIU19022
PIJ1201
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PIU19015
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PIJ1
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PIJ1406
PIR2802
PIU19044
PIU1901
PIU1902
PIU1904
PIU19038
PIU19039
PIU19041
PIU19042
PIU19043
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PIU1907
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Revi
sion:
Shee
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.1 P
CB03
Auth
or:
Jorg
e Am
odio
Date
:
ww
w.se
rious
inte
grat
ed.c
om
1012
7/15
/201
5
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PIJ1502
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PIJ1504
PIJ1505
PIJ1
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PIJ1
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PIJ1508
PIJ1
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PIJ15010
PIJ15011
PIJ15012
COJ15
PILED101
PILED102
PILED103
PILED104
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PIR2901PIR2902 COR2
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PIR3001PIR3002 COR3
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PIR3101PIR3102CO
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PIR3201PIR3202CO
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PIR3301PIR3302 COR33
PIR3401PIR3402 COR3
4 PIR3501
PIR3502
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5
PIR3601
PIR3602
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PIS201PIS202
PIS203PIS204PIS205
PIS206PIS207
PIS208COS
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PIU2002
PIU2003
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COU20
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PIJ15012
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PIR3102PIR3202
PIR3302
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PIJ1505
PIJ15011
PILED102
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PIR3401
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PIS302PIS303
PIS402PIS403
PIJ1
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PIJ15010
PILED101
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PIR3101 PIS208
PIR3201 PIS206
PIS204PIS205
PIU2
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NLRZM0AN00ALS
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NLRZM0BOOT1
PIS207
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PIS203
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PIJ1
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PIJ1502
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PIJ1
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Rene
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Bas
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rd
Revi
sion:
Shee
tofv2
.1 P
CB03
Auth
or:
Jorg
e Am
odio
Date
:
ww
w.se
rious
inte
grat
ed.c
om
1112
7/15
/201
5
JLin
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PA18/RD/PCK2/AD1 10
PA21/RXD/PCK1 11
VDDCORE 12
PA19/RK/FIQ/AD2 13
PA22/TXD1/NPCS3 14
PA23/SCK1/PWM0 15
PA20/RF/IRQ0 16
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PIC10801PIC10802COC108
PIC10901PIC10902COC109
PIC11001PIC11002COC110
PIC11101PIC11102COC111
PIC11201PIC11202COC112
PIC11301PIC11302COC113
PIC114
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PIC11501PIC11502COC115
PIC11601PIC11602CO
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PIC11701PIC11702COC117
PIC11801PIC11802COC118
PIC11901PIC11902CO
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PIC12001PIC12002COC120
PIC12101PIC12102COC121
PIC12201PIC12202COC122
PIC12301PIC12302CO
C123
PIC12401PIC12402COC124
PIJ1601
PIJ1602
PIJ1603
PIJ1604
PIJ1605
PIJ1606
PIJ1607
PIJ1608
PIJ1609
PIJ16010
COJ16
PIJ1701
PIJ1
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PIJ1703
PIJ1704
PIJ1
705
PIJ170C1PIJ170C2
PIJ170C3PIJ170C4COJ17
PILED201 PILED202
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PIU21018
PIU21019
PIU21020
PIU21021
PIU21022
PIU21023
PIU21024
PIU21025
PIU21026
PIU21027
PIU21028
PIU21029
PIU21030
PIU21031
PIU21032
PIU21033PIU21034PIU21035PIU21036PIU21037PIU21038PIU21039PIU21040PIU21041PIU21042PIU21043PIU21044PIU21045PIU21046PIU21047PIU21048
PIU21049
PIU21050
PIU21051
PIU21052
PIU21053
PIU21054
PIU21055
PIU21056
PIU21057
PIU21058
PIU21059
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PIU21062
PIU21063
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PIU2201
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116
117
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119
120
121
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123
124
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126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
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PIJ101
PIJ102
PIJ103
PIJ104
PIJ105
PIJ106
PIJ107
PIJ108
PIJ109
PIJ1010
PIJ1011
PIJ1012
PIJ1013
PIJ1014
PIJ1015
PIJ1016
PIJ1017
PIJ1018
PIJ1019
PIJ1020
PIJ1021
PIJ1022
PIJ1023
PIJ1024
PIJ1025
PIJ1026
PIJ1027
PIJ1028
PIJ1029
PIJ1030
PIJ1031
PIJ1032
PIJ1033
PIJ1034
PIJ1035
PIJ1036
PIJ1037
PIJ1038
PIJ1039
PIJ1040
PIJ1041
PIJ1042
PIJ1043
PIJ1044
PIJ1045
PIJ1046
PIJ1047
PIJ1048
PIJ1049
PIJ1050
PIJ1051
PIJ1052
PIJ1053
PIJ1054
PIJ1055
PIJ1056
PIJ1057
PIJ1058
PIJ1059
PIJ1060
PIJ1061
PIJ1062
PIJ1063
PIJ1064
PIJ1065
PIJ1066
PIJ1067
PIJ1068
PIJ1069
PIJ1070
PIJ1071
PIJ1072
PIJ1073
PIJ1074
PIJ1075
PIJ1076
PIJ1077
PIJ1078
PIJ1079
PIJ1080
PIJ1081
PIJ1082
PIJ1083
PIJ1084
PIJ1085
PIJ1086
PIJ1087
PIJ1088
PIJ1089
PIJ1090
PIJ1091
PIJ1092
PIJ1093
PIJ1094
PIJ1095
PIJ1096
PIJ1097
PIJ1098
PIJ1099
PIJ10100
COJ1
APIJ10101
PIJ10102
PIJ10103
PIJ10104
PIJ10105
PIJ10106
PIJ10107
PIJ10108
PIJ10109
PIJ10110
PIJ10111
PIJ10112
PIJ10113
PIJ10114
PIJ10115
PIJ10116
PIJ10117
PIJ10118
PIJ10119
PIJ10120
PIJ10121
PIJ10122
PIJ10123
PIJ10124
PIJ10125
PIJ10126
PIJ10127
PIJ10128
PIJ10129
PIJ10130
PIJ10131
PIJ10132
PIJ10133
PIJ10134
PIJ10135
PIJ10136
PIJ10137
PIJ10138
PIJ10139
PIJ10140
PIJ10141
PIJ10142
PIJ10143
PIJ10144
PIJ10145
PIJ10146
PIJ10147
PIJ10148
PIJ10149
PIJ10150
PIJ10151
PIJ10152
PIJ10153
PIJ10154
PIJ10155
PIJ10156
PIJ10157
PIJ10158
PIJ10159
PIJ10160
PIJ10161
PIJ10162
PIJ10163
PIJ10164
PIJ10165
PIJ10166
PIJ10167
PIJ10168
PIJ10169
PIJ10170
PIJ10171
PIJ10172
PIJ10173
PIJ10174
PIJ10175
PIJ10176
PIJ10177
PIJ10178
PIJ10179
PIJ10180
PIJ10181
PIJ10182
PIJ10183
PIJ10184
PIJ10185
PIJ10186
PIJ10187
PIJ10188
PIJ10189
PIJ10190
PIJ10191
PIJ10192
PIJ10193
PIJ10194
PIJ10195
PIJ10196
PIJ10197
PIJ10198
PIJ10199
PIJ10200
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PIJ102
PIJ1014
PIJ1034
PIJ1048
PIJ1060
PIJ1074
PIJ1088
PIJ10100
PIJ10102
PIJ10114
PIJ10130
PIJ10138
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PIJ101
PIJ1013
PIJ1033
PIJ1039
PIJ1045
PIJ1051
PIJ1059
PIJ1075
PIJ1087
PIJ1095
PIJ10101
PIJ10113
PIJ10125
PIJ10139
PIJ10140
PIJ10141
PIJ10143
PIJ10145
PIJ10146
PIJ10147
PIJ10149
PIJ10151
PIJ10152
PIJ10153
PIJ10155
PIJ10157
PIJ10158
PIJ10159
PIJ10161
PIJ10163
PIJ10164
PIJ10167
PIJ10172
PIJ10189
PIJ1044
PIJ1046
PIJ1050
PIJ1062
PIJ1069
PIJ1073
PIJ10124
PIJ10180
PIJ10182
PIJ10184
PIJ10186
PIJ10188
PIJ10190
PIJ10192
PIJ10194
PIJ10198
PIJ10200
NLPWRDWN#
PIJ1053
NLRZM0AN00ALS
PIJ1067
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PIJ1063
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PIJ1018
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PIJ1061
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PIJ10179
NLRZM0BOOT2
PIJ10134
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PIJ10170
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PIJ1010
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PIJ1058
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PIJ10121
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PIJ10171
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PIJ10168
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PIJ1021
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PIJ1040
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PIJ10137
NLRZM0ET0RXD0
PIJ10118
NLRZM0ET0RXD1
PIJ10122
NLRZM0ET0RXD2
PIJ10131
NLRZM0ET0RXD3
PIJ1028
NLRZM0ET0RXDV
PIJ1036
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PIJ10129
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PIJ10110
NLRZM0ET0TXD1
PIJ10135
NLRZM0ET0TXD2
PIJ10120
NLRZM0ET0TXD3
PIJ10104
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PIJ1086
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PIJ1023
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PIJ104
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PIJ106
NLRZM0LCD0DATA1
PIJ10199
NLRZM0LCD0DATA2
PIJ10197
NLRZM0LCD0DATA3
PIJ10177
NLRZM0LCD0DATA4
PIJ10183
NLRZM0LCD0DATA5
PIJ10175
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PIJ10181
NLRZM0LCD0DATA7
PIJ10103
NLRZM0LCD0DATA8
PIJ1066
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PIJ1068
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PIJ1070
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PIJ10105
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PIJ1078
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PIJ1082
NLRZM0LCD0DATA14
PIJ10111
NLRZM0LCD0DATA15
PIJ10142
NLRZM0LCD0DATA16
PIJ10144
NLRZM0LCD0DATA17
PIJ10154
NLRZM0LCD0DATA18
PIJ10156
NLRZM0LCD0DATA19
PIJ10148
NLRZM0LCD0DATA20
PIJ10150
NLRZM0LCD0DATA21
PIJ10160
NLRZM0LCD0DATA22
PIJ10162
NLRZM0LCD0DATA23
PIJ103
NLRZ
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PIJ108
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PIJ105
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PIJ1065
NLRZM0LED0GRN
PIJ1071
NLRZM0LED0RED
PIJ10176
NLRZ
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PIJ1026
NLRZM0MISO2
PIJ1091
NLRZ
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PIJ1097
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PIJ1093
NLRZM0MMC0D0
PIJ1089
NLRZM0MMC0D1
PIJ1099
NLRZM0MMC0D2
PIJ1064
NLRZM0MMC0D3
PIJ10187
NLRZM0MMC0D4
PIJ10191
NLRZM0MMC0D5
PIJ10185
NLRZM0MMC0D6
PIJ10193
NLRZM0MMC0D7
PIJ1024
NLRZM0MOSI2
PIJ1031
NLRZ
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NLRZ
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PIJ10136
NLRZM0P107
PIJ1055
NLRZ
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PIJ1054
NLRZ
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PIJ10195
NLRZM0P7080IRQ1
PIJ1012
NLRZM0P8080TxD3
PIJ1016
NLRZM0P8090RxD3
PIJ1057
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PIJ1030
NLRZM0PMOD0RST#
PIJ1027
NLRZM0RESET#
PIJ1011
NLRZ
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PIJ109
NLRZM0RS0ON
PIJ1022
NLRZM0RSPCK2
PIJ10126
NLRZ
M0SC
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PIJ10165
NLRZM0SCL1
PIJ10115
NLRZM0SD0CD
PIJ1096
NLRZ
M0SD
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PIJ1098
NLRZM0SD0CMD
PIJ10119
NLRZ
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PIJ1092
NLRZM0SD0D1
PIJ10106
NLRZM0SD0D2
PIJ10123
NLRZ
M0SD
0D3
PIJ1084
NLRZM0SD0WP
PIJ10128
NLRZM0SDA0
PIJ10169
NLRZM0SDA1
PIJ10166
NLRZM0SPBCLK0
PIJ10178
NLRZ
M0SP
BIO0
0
PIJ10173
NLRZ
M0SP
BIO1
0PIJ10174
NLRZM0SPBSSL0
PIJ10116
NLRZ
M0SS
IRxD
PIJ10108
NLRZ
M0SS
ISCK
PIJ10112
NLRZ
M0SS
ITxD
PIJ10133
NLRZ
M0SS
IWS
PIJ1020
NLRZ
M0SS
L20
PIJ1085
NLRZ
M0TC
K
PIJ1079
NLRZM0TDI
PIJ1081
NLRZ
M0TD
O
PIJ1083
NLRZ
M0TM
S
PIJ1052
NLRZM0TOUCH0IRQ
PIJ107
NLRZ
M0TO
UCH0
RST
PIJ1077
NLRZM0TRST#
PIJ1015
NLRZ
M0UA
RT0R
X
PIJ1025
NLRZ
M0UA
RT0T
X
PIJ1035
NLRZ
M0US
BF0N
PIJ1037
NLRZM0USBF0P
PIJ1041
NLRZM0USBF0VBUS
PIJ10132
NLRZM0USBH05V0EN
PIJ1049
NLRZ
M0US
BH0N
PIJ1056
NLRZM0USBH0OC#
PIJ1047
NLRZM0USBH0P
PIJ1043
NLRZ
M0US
BH0V
BUS
PIJ1032
NLRZM0VIO0CLK
PIJ10109
NLRZM0VIO0D0
PIJ10107
NLRZM0VIO0D1
PIJ1072
NLRZM0VIO0D2
PIJ1076
NLRZM0VIO0D3
PIJ1090
NLRZM0VIO0D4
PIJ10127
NLRZM0VIO0D5
PIJ1094
NLRZM0VIO0D6
PIJ10117
NLRZM0VIO0D7
PIJ1038
NLRZM0VIO0FLD
PIJ1017
NLRZ
M0VI
O0HS
YNC
PIJ1019
NLRZM0VIO0VSYNC
PIJ10196
NLRZM01V8
PIJ1042
NLRZM03V3
YLCDRZA1H Technical Reference Manual
Rev 2.20 Jul 21, 2015
Page 59 of 68
12.5 - Baseboard BOM Designator Qty Description
BAT1 1 3030TR [Keystone] CR1025 SMD Coin Cell Holder
C1, C5, C60, C113, C119 5 CL05A475MQ5NQNC [Samsung] Ceramic 4u7 6V3 X5R 20%
C2, C3, C9, C27, C39, C40, C41, C42, C43, C44, C45, C46, C48, C49, C50, C51, C52, C53, C58, C59, C61, C63, C64, C66, C68, C69, C70, C71, C72, C75, C77, C78, C79, C80, C81, C82, C83, C84, C89, C90, C108, C109, C110, C111, C112, C115, C116, C117, C118, C122
50 CL03A104KP3NNNC [Samsung] Ceramic100n0 10V X5R 10%
C4, C7, C17, C65 4 CL10A226MQ8NRNC [Samsung] Ceramic 22uF 6.3V X5R 20%
C6, C16, C37, C88, C91 5 CL10A106KP8NNND [Samsung] Ceramic 10uF 10V 10% X5R
C8 1 CL05B271KB5NNNC [Samsung] Ceramic 270p 50V X7R 10%
C10, C11, C12 3 CL31A106KBHNNNE [Samsung] Ceramic 10u0 50V 10% X5R
C13 1 C1005X7R1H104K050BB [TDK] Ceramic 100n0 50V 10% X7R
C14, C30, C31 3 CL05B103KB5NNNC [Samsung] Ceramic 10n0 50V X7R 10%
C15 1 CL05C180JB5NNNC [Samsung] Ceramic 18p0 50V C0G 5%
C18 1 CL05A104KO5NNNC [Samsung] Ceramic 100n0 16V 10% X7R
C19 1 CL05B102KB5NNNC [Samsung] Ceramic 1n0 50V X7R 10%
C20, C114 2 CL05C330JB5NNNC [Samsung] Ceramic 33p0 50V 5% NP0
C21, C22, C23, C25, C34, C35 6 C1608X5R1H334M080AB [TDK] Ceramic 330n0 50V 20% X5R
C24, C36 2 CL21A226MAQNNNE [Samsung] Ceramic 22u0 25V 20% X5R
C26 1 C1608X7R1H224M080AB [TDK] Ceramic 220n0 50V 20% X7R
C28 1 CL05B471KB5NNNC [Samsung] Ceramic 470p0 50V 10% X7R
C29 1 CL05C220JB5NNNC [Samsung] Ceramic 22p0 50V 5% NP0
C32, C33, C47, C95, C96, C97 6 CL05A105KO5NNNC [Samsung] Ceramic1u0 16V X5R 10%
C38 1 CL31B105KBHNNNE [Samsung] Ceramic 1u0 50V 10% X7R
C54, C57, C73, C86, C87, C92, C93, C94, C98, C102, C103, C104
12 CL03A105MQ3CSNC [Samsung] Ceramic 1u0 6.3V 20% X5R
C55, C56, C62, C105 4 CL05A225MP5NNNC [Samsung] Ceramic 2u2 10V X5R 20%
C67 1 LMK316BJ476ML-T [Taiyo Yuden] Ceramic 47uF 10V 20% X5R
C74 1 TPSD157M016R0150 [AVX] Tant150uF 16V 20%
C76 0 CL03A104KP3NNNC [Samsung] Ceramic100n0 10V X5R 10%
C85 1 CL05A106MQ5NUNC [Samsung] Ceramic10uF 6.3V X5R 20%
C99, C100, C101, C106, C107 5 CL03C100DA3GNNC [Samsung] Ceramic 10p0 25V C0G/NP0 +/-0.5pF
C120, C121 2 C0603C0G1E150J030BA [Murata] Ceramic 15p0 25V C0G 5%
C123 1 CL03B102KA3NNNC [Samsung] Ceramic 1n0 25V 10% X7R
C124 1 CL03A103KP3NNNC [Samsung] Ceramic 10n0 10V 10% X5R
D1, D2, D3, D4 4 RB481KTL [Rohm] Dual Shottky Diode 30V
D5 1 B240A-13-F [Diodes Inc] Schottky 40V 2A
D6 1 DFLS130L-7 [Diodes Zetex] Schottky Diode 30V 310mV@1A
FB1 1 BLM21AG121SN1D [Murata] Ferrite Beads120Ohm 25% 100MHz 800mA
FB2, FB3 2 CIM05U601NC [Samsung] Ferrite Bead 600 Ohm 300mA 0402
FB4 1 CIS10P300AC [Samsung] Ferrite Bead 30R0 6A
J1 1 1473005-4 [TE] 200Pos RA DIMM Socket 0.6mm pitch
J2 1 RASM722PTR13X [Switchcraft] RA, 2.1mm 5A SMT, T/R
YLCDRZA1H Technical Reference Manual
Rev 2.20 Jul 21, 2015
Page 60 of 68
J3 1 XF2W-4015-1A [Omron] 40pos 0.5mm pitch FFC Dual
J4 1 XF2W-0815-1A [Omron] 8pos 0.5mm pitch FFC
J5 1 08B0-1X1T-36-F [Bel] MagJack 10/100 AutoMDIX LED G/Y TH
J6 1 CES-109-01-T-D [Samtec] 18pos/2x9 ST F 2.54mm Hdr
J7 1 USB-A-S-F-B-SM2-R-TR [Samtec] USB A 2.0 4Pin
J8, J17 2 10118192-0001LF [FCI] USB Micro B Full SMT
J9 1 20020110-C081A01LF [FCI] Term Block 8pos/1x8 M 3.5mm RA TH
J10 1 SJ-3524-SMT-TR-GR [CUI] 3.5mm SMT Audio Jack Green
J11, J12 2 SM02B-GHS-TB(LF)(SN) [JST] 2Pos/1x2 1.25mm RA
J13 1 SJ-3524-SMT-TR-BE [CUI] 3.5mm SMT Audio Jack Blue
J14 1 SJ-43516-SMT-TR-PI [CUI] 3.5mm SMT Audio Jack Pink/Red
J15 1 SSW-106-02-F-D-RA [Samtec] 2x6 RA 0.1" F Header
J16 0 TC-2050 PCB [Tag-Connect] 10pos/2x5 *NO PART PADS ONLY*
L1 1 SRU1028-100Y [Bourns ] 10uH Shielded 2.8A 45mOhm 10x10x2.8mm
L2, L4 2 SRN3015-2R2M [Bourns] 2.2uH 1.8A 72mOhm Inductor
L3 1 SRN3015-1R0Y [Bourns] 1uH 2.35A Inductor 3x3x1.5mm
L5 1 SRR6028-3R9Y [Bourns] Shielded 3.9uH 2.45A SMD Coil
L6 1 SRR5028-220Y [Bourns] 22uH 1.15 30% 120mOHM,5.8x5.8x2.8mm
LED1, LED2 2 598-8610-207F [Dialight] LED BiColor Red/Green 60/40mcd
R1, R4, R5, R18, R19, R27, R29, R30, R33, R47
10 ERA-2AED103X [Panasonic] 10K 0.5% 1/16W 25ppm
R2 1 ERJ-2RKF3742X [Panasonic] 37k4 1% 1/10W 100ppm
R3 1 ERJ-2RKF1871X [Panasonic] 1k87 1% 1/10W 100ppm
R6 1 ERJ-2RKF1803X [Panasonic] 180K Ohm 1% 1/10W ±100ppm
R7 1 ERJ-2RKF2553X [Panasonic] 255k0 1% 1/10W 100ppm AEC-Q200
R8, R9, R10 3 ERJ-2RKF4993X [Panasonic] 499k 1% 1/10W 100ppm
R11 1 ERJ-2RKF1004X [Panasonic] 1m00 1% 1/10W 100ppm
R12 1 ERJ-2RKF7502X [Panasonic] 75k0 1% 1/10W 100ppm
R13 1 ERJ-2RKF5622X [Panasonic] 56k2 1% 1/10W 100ppm
R14 1 ERJ-2RKF3302X [Panasonic] 33k0 1% 1/10W 100ppm
R15 1 ERJ-2RKF6652X [Panasonic] 66k5 1% 1/10W 100ppm
R16 1 NRC04F1101TRF [NIC] 1k1 1/16W 1% 0402
R17 1 CRCW04023R00FKED [Vishay] 3R00 1% 1/16W 100ppm
R20, R45 2 ERJ-2RKF22R0X [Panasonic] 22R0 1% 1/10W 100ppm
R21 1 ERJ-2RKF2201X [Panasonic ] 2k2 1% 1/10W 100ppm
R22, R23 2 ERJ-2RKF2200X [Panasonic] 220R 1% 1/10W 100ppm
R24 1 ERJ-2RKF6491X [Panasonic] 6k49 1% 1/10W 100ppm
R25, R26, R46 3 ERA-2AED101X [Panasonic ] 100R 0.5% 1/16W 25ppm
R28 1 ERA-2AED223X [Panasonic ] 22k0 0.5% 1/16W 25ppm
R31, R32 2 ERA-2AED472X [Panasonic ] 4k70 0.5% 1/16W 25ppm
R34 1 ERA-2AED102X [Panasonic ] 1k00 0.5% 1/16W 25ppm
R35, R38 2 ERA-2AED471X [Panasonic ] 470R 0.5% 1/16W 25ppm
R36, R37, R39, R43 4 ERA-2AED152X [Panasonic] 1K50 0.5% 1/16W 25ppm
R40 1 CRCW04020000Z0ED [Vishay] 0R00 1/16W
R41, R42 2 ERJ-2RKF27R0X [Panasonic] 27R0 1% 1/10W 100ppm
R44 1 ERJ-2RKF3900X [Panasonic] 390R 1% 1/10W 100ppm
YLCDRZA1H Technical Reference Manual
Rev 2.20 Jul 21, 2015
Page 61 of 68
RA1, RA19 2 EXB-28V104JX [Panasonic] IsolArr 100k0 5% 200ppm 1/16W 4x040
RA2, RA3, RA4, RA5, RA6, RA7, RA8, RA15, RA16, RA17
10 EXB-28V330JX [Panasonic] IsolArr 33R0 4x 5% 200ppm 1/16W
RA9, RA10 2 EXB-28V223JX [Panasonic] IsolArr 22k0 4x 5% 200ppm 1/16W
RA11, RA12 2 EXB-28V473JX [Panasonic] IsolArr 47k0 4x 5% 200ppm 1/16W
RA13 1 EXB-28V220JX [Panasonic] IsolArr 22R0 4x 5% 200ppm 1/16W
RA14, RA18, RA20 3 EXB-28V472JX [Panasonic] IsolArr 4k7 5% 200ppm 1/16W 4x0402
RA21 1 EXB-28V103JX [Panasonic] IsolArr 10k0 5% 200ppm 1/16W 4x0402
RA22 1 EXB-28V101JX [Panasonic] IsolArr 100R 4x 5% 200ppm 1/16W
S1, S2 2 219-4LPSTR [CTS] DIP Switch 4Pos 2.54mm
S3, S4 2 KSC222J LFS [C&K] Sealed PB Switch 6.2x6.2mm
SD1 1 10067847-001RLF [FCI] SDCard Socket
SO3, SO4, SO5, SO6 4 SMTSO-M4-6ET [PEM] M4 6.0mm Standoff
U1 1 P9122-S2NBGI [IDT] Switcher w/I2C Dual Fact Pgm 1.8, 3.30
U2 1 TPS54232D [TI] Buck Regulator 28V 2A
U3 1 TPS2501DRCR [TI] USB Boost Power Controlller SON10
U4 1 74LVC1G157GV [NXP] Single 2-Input Multiplexer
U5 1 TPS65150RGER [TI] LCD 3-output LCD power controller
U6 1 CAT4139TD-GT3 [OnSemi] LED Backlight Driver
U7 1 DS90CF383BMTX/NOPB [TI] RGB888 to LVDS 65MHz Serializer
U8 1 MTFC4GMDEA-4M IT [Micron] 4GByte eMMC 3v3
U9 1 PCF8523TK/1,118 [NXP] Real Time Clock
U10 1 ATSHA204-MAHDA-T [Atmel] CryptoAuthentication Chip
U11 1 KSZ8081MNXCA TR [Micrel] Ethernet 10/100 MII PHY
U12 1 501AAA25M0000DAGR [SiLabs] 25MHz Oscillator 50ppm 2x2.5mm
U13 1 24AA02E48T-I/OT [Microchip] EEPROM EUI48 MAC I2C
U14 1 501AAA24M0000DAGR [SiLabs] 24MHz Oscillator 50ppm 2x2.5mm
U15, U16 2 TPD2E2U06DRLR [TI] ESD Transient Suppressor Dual 30kV
U17 1 ISL41387IRZ-T [Intersil] RS232/RS485 Dual Mode Transceiver
U18 1 IFX1050GVIOXUMA1 [Infineon] CAN Transceiver 1MBaud
U19 1 MAX98089ETN+ [Maxim] Audio Codec/Amplifier
U20 1 APDS-9002-021 [Avago] Ambient Light Sensor
U21 1 AT91SAM7S64C-MU [Atmel] MCU
U22 1 501AAA18M4320DAGR [SiLabs] 18.432MHz Osc 50ppm 2x2.5mm
X1 1 ABS07-32.768KHZ-T [Abracon] 12.5pF 20ppm
YLCDRZA1H Technical Reference Manual
Rev 2.20 Jul 21, 2015
Page 62 of 68
Chapter 13 - Post Production Modifications
13.1 – I/O Baseboard v2.0 The I/O Baseboard v2.0 has the following post-production modification to address the issue described in the 5.5 - USB Host Power Subsystem section:
On v2.0 units, P1.6 was incorrectly used to drive the USB Host Power Enable (RZM-USBH_5V_EN on the RZ Module; DIMM pin 132). This port is open drain only on the MCU, and is incapable of driving high and enabling the power supply. All v2.0 units should include a post-production modification connecting U21 pin 7 (ENUSB) to U21 pin 8 (FAULT#) to enable the USB supply during all non-overcurrent situations.
The unmodified v2.0 units have U21 (near the USB Host A Connector) like this:
The modified 2.0 units have the two pins 7 and 8 shorted as described above:
YLCDRZA1H Technical Reference Manual
Rev 2.20 Jul 21, 2015
Page 63 of 68
Chapter 14 - Additional Information
Further information available for this product can be found on the Renesas website at:
http://am.renesas.com/HiResGUI
General information on Renesas Microcontrollers can be found on the global Renesas website:
http://www.renesas.com/
Renesas Electronics America, Inc.
2801 Scott Boulevard
Santa Clara, CA 95050-2554, US
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