Renesas RE Series, RE01 Series, RE0 Series, RE01 1500KB User Manual

All information contained in these materials, including products and pr o duct specifications, r epres en ts

Corporation website

(http://www.renesas.com).

RE01 Group

al

Rev. 1.00 Jun 2019

32

R

32

User's Manual

Evaluation Kit RE01 1500KB User’s Manu

E Family / RE0 Series

information on the prod uct at the time of publication and is su bject t o cha nge by Renesas Electronics
Corporation without notice. Please review the latest information published by Renesas Electronics
Corporation through various means, including the Renesas Electronics

Corporate Headquarters

Contact information

Trademarks

Notice

1. Descriptions of circuits, s oftware and other related in formatio n in this document are provided only to il lustrate t he opera tion of s emiconduc tor produ cts and
application exampl es . You are fully respon si ble for the incorporation or any other use of t he c i rcui t s, s oft w ar e, a nd information in the des ig n of your product or
system. Renesas Electro nics discl aim s any a nd all liability for a ny l osses a nd damag es i ncurr ed by you or t hird p arties arisin g f rom t he us e of t hese circuits,
software, or information.

2. Renesas Electronics hereby expressly disclaims any w ar ranties against and liability for infringement or any other claims involving patents, copyrights, or other
intellectual prop erty rights of third p arties, by or arising fr om the use of Rene sas Electronics pro ducts or technical i nformation descri bed in this document,
including but not limited to, the product data, drawings, charts, programs, algorithms, and application examples.

3. No license, express , implied or otherwise, i s granted hereby under an y patents, copyrights o r other intellectual propert y rights of Renesas El ectronics or
others.

4. You shall not alter, modify, copy, or reverse engineer any Renesas Electronics product, whether in whole or in part. Renesas Electro nic s dis cl aim s any and all
liability for any losses or damages incurred by you or third parties arising from such alteration, modification, copying or reverse engineering.

5. Renesas Electronic s prod ucts are cl assified accordi ng to the f ollowin g two qu ality gra des: “Sta ndard” a nd “Hig h Qualit y”. The int ended ap plications for each
Renesas Electronics product depends on the prod uct’s qu ali ty gra de , as indicated below.
"Standard": Computers; office e quipment; comm unications eq uipment; test a nd measurement equi pment; audio and visual equipment; home electro nic

"High Quality": Transportation equipment (automobiles, trains, ships, etc.); traffic control (traffic lights); large-scale communic ation equipment; key finan ci al

Unless expressly designated as a high reliability product or a product for harsh environments in a Renesas Electronics data sheet or other Renesas
Electronics document, Renesas Electronics products are not intended or authorized for use in products or systems tha t may pose a direct threat to human life
or bodily injury (artificial life supp ort devices or syst ems; surgical implant ations; etc.), or m ay cause serious pro perty damage (space s ystem; undersea
repeaters; nucl ear power cont rol systems; aircraf t control syst ems; key pla nt systems; mili tary equipment; etc.). Renes as Electroni cs disclaim s any and a ll
liability for any damag es or l osses i ncurred by you or any third p arties arising from t he use of any Renesas Elect ronic s p roduct t hat is inconsis tent wi th any
Renesas Electronics data sheet, user’s manual or other Renesas Electronics document.

6. When using Ren esas Electronics products, ref er to the latest product information (data sheets, user’s manuals, application no tes, “General Notes for
Handling and Usi ng Semi conducto r De vices” in the reliabili ty handbook, e tc.), and ens ure that usage conditi ons are within th e ranges specif ied by R enesa s
Electronics with re spect to maximum ratin gs, operating power sup ply voltage range, h eat dissipation characteri stics, installation, etc . Renesas Electronics
disclaims any and all liability for any malfunctions, failure or accident arising out of the use of Renesas Electronics products outside of such specified ranges.

7. Although Renesas Electronics endeavors to improve the quality and reliability of Renesas El ectronics products, semiconductor products have specific
characteristics, such as the occurr ence of failure at a certain rate and m alfunctions under c ertain use conditions . Unless design ated as a high reliability
product or a produ ct for harsh environm ents in a R en esas Electronics d ata s hee t or ot her Re nesas Elec tronics do cum ent, R enes as Elec troni cs pr oduct s a re
not subject to radi ation resistance des ign. You are responsible for implementi ng safety measures to gu ard against the possibilit y of bodily injury, injury or
damage caused by fire, and/or danger to the public in the eve nt of a failure or malfunct ion of Renesas Electronics products, such as safety design for
hardware and software, including but not limited to redunda ncy, fire control and m alfuncti on preven tion, appr opriate t reatment f or agin g degrada tion or a ny
other appropriate m easures . Becaus e the eval uation of m icrocom puter softw are alo ne is very di fficult an d impracti cal, you are r esponsi ble for eval uating th e
safety of the final products or systems m anuf act u red by you.

8. Please contact a Renesas Electronics sales office for details as to environmental matters such as the environmental compatibility of each Renesas
Electronics product. You are responsibl e for carefully and sufficiently investi gating applicable l aws and regulations that regulate th e inclusion or use of
controlled subst ances, inc luding without limitat ion, the E U RoHS D irective, and us ing Renes as Elect ronics p roducts in compliance with all these appl icable
laws and regulatio ns. Renesa s Electro nics disclaims any and all l iability f or damage s or losses occurring as a result of your n oncomplia nce with applica ble
laws and regulations.

9. Renesas Electro nics products and technologies shall not be used for or incorporate d into any products or sys tems whose manufacture, use, or sale is
prohibited under any applicable domestic or foreign laws or regulations. You shall comply with any applicable export control laws and regulations promulgated
and administered by the governments of any countries asserting jurisdiction over the parties or transactions.

10. It is the responsibility of the buye r or distributor of R enesas Electronics products, or a ny other party who distributes, di sposes of, or otherwise sells or
transfers the product to a third party, to notify such third party in advance of the contents and conditions set forth in this document.

11. This document shall not be reprinted, reproduced or duplicated in any form, in whole or in part, without prior written cons ent of Renesas Electronics.

12. Please contact a Renes as Electronic s sales office if you have any questi ons regarding the inform ation cont ained in this documen t or Renesas Electronic s
products.

(Note1) “Renesas Electronics” as used in this document means Renesas Electronics Corporation and also includes its directly or indirectly controlled

(Note2) “Renesas Electronics product(s)” means any product developed or manufactured by or for Renesas Electronics.

subsidiaries.

appliances; machine tools; personal electronic equipment; industrial robots; etc.

terminal systems; safety control equip m ent; etc.

(Rev.4.0-1 November 2017)

TOYOSU FORESIA, 3-2-24 Toyosu,
Koto-ku, Tokyo 135-0061, Japan

www.renesas.com

Renesas and the Renesas logo are trademarks of Renesas
Electronics Corporation. All trademarks and regis t er ed tra dem arks
are the property of their respective owners.

For further inform ation on a prod uct, techn ology, the most up-to-date
version of a document, or your nearest sales office, please visit:

www.renesas.com/contact/

.

© 2019 Renesas Electronics Corporation. All rights reserved.

General Precautions in the Handling of Microproc essing Unit and Microcontroller Unit
Products

The following usage n otes are appli cable to all Microp rocessing uni t and Microcontroll er unit product s from Renesas . For detailed usage notes on the pro ducts
covered by this document, refer to the relevant sections of the document as well as any technical updates that have been issued for the products.

1. Precaution against Electrostatic Discharge (ESD)
A strong electrical field, when ex posed to a CMOS devi ce, can cause dest ruction of t he gate oxi de and ultim ately d egrade t he device operati on. Steps must
be taken to stop the g eneration of stat ic electricity as much a s possible, and quickly dissipate it w hen it occurs. En vironmental control must be adequate.
When it is dry, a humidifi er sh ould be used. This is rec ommende d to av oid u sing ins ulators that c an easi ly buil d up static el ectricity. Semicon ductor devices
must be stored and transported in a n a nt i-stat ic container, static shielding b ag or c ond uc tive material. All test and measurem en t to ol s i n cluding work bench e s
and floors must be gr ound ed. Th e operat or mus t also be g roun ded us ing a wri st stra p. Sem icond uct or devic es m ust not b e touch ed wit h bare hands. Simila r
precautions must be taken for printed circuit boards with mounted semiconductor devices.

2. Processing at power-on
The state of the product is undefined at th e ti m e when power is supplied. The states of internal circuits in the LSI are indetermin ate a nd the states of r egister
settings and pins ar e u ndef ine d a t the time when pow er is supplied. In a fi ni sh ed p ro duc t whe re t he res et signal is applied t o t he e xt e rn al re set pin, the states
of pins are not gua rante ed fr om the time w hen pow er is suppl ied unti l the rese t process is com pleted. In a simil ar way, the states o f pins in a pr oduct that i s
reset by an on-chip pow er-on reset f unction are not gu arantee d from the tim e when power is s upplied until the power reach es the level at whi ch resetti ng is
specified.

3. Input of signal during power-off state
Do not input si gnals or an I/O pull-up power supply while the device is powere d of f. T h e c urr en t i nj ec ti on that results f rom in put of such a si gnal or I/O pull-up
power supply m ay c a use m al f unc ti on a nd th e abnormal cur rent th at passes i n the device at this time may cause d eg r ada ti on of internal elements. Follow t he
guideline for input signal during power-off state as described in your product documentation.

4. Handling of unused pins
Handle unused pi ns i n acco rdanc e wit h the dir ections gi ven under han dling of un used pins i n th e man ual. T he in put pins of C MOS p roduc ts a re g enerall y i n
the high-impedanc e state. In operation with an un used pin in the open-circuit state, extra electromagnetic nois e is induced in the vici nity of the LSI, an
associated shoot-through current flows internally, and malfunctions occur due to the false recognition of the pin state as an input signal become possible.

5. Clock signals
After applying a r eset, only release the rese t line after the o per at in g cl ock signal becomes stable. W h en s witching the clock signal during p ro gram execution,
wait until the tar get clock signal is st abilized. When the cl ock signal is gene rated with an external resonator or from an external oscilla tor during a reset,
ensure that the r eset line is only rele ased aft er full stabilizati on of th e clock si gnal. Additi onally, when switchi ng to a clo ck sign al produced with an e xternal
resonator or by an external oscillator while program execution is in progress, wait until the target clock signal is stable.

6. Voltage application waveform at input pin
Waveform distortion due t o input noi se or a reflec ted w ave m ay caus e malfu nct ion. If the i npu t of the CM OS devi ce st ays in the area betwee n V
V

(Min.) due t o nois e, for exampl e, the device may malfunc ti on. Take care to prevent chatteri n g noise from enteri ng t he de vic e wh en the input lev el i s fi xe d,

IH

and also in the transition period when the input level passes thr oug h the ar ea between V

7. Prohibition of access to reserved addresses
Access to reserved a dd ress es i s p ro hi bi te d. T h e r eserved addresse s a re p ro vi ded f or pos s ible future expan si on of f unc ti ons . Do not access these ad dress es
as the correct operation of the LSI is not guaranteed.

8. Differences between products
Before changing f rom one product to another, for ex ample to a product wit h a different part number, confi rm that the change will not lead to problems . The
characteristics of a m ic ro pr oces s in g unit or microcontrolle r uni t products in the same group but having a different part number might differ in terms of i nternal
memory capacity, layout patter n, and o ther fact ors , whic h can affect the range s of elec trical char acteri stic s, such as char act eristic values, opera ting ma rgi ns,
immunity to noise, a nd am ount of radi ated nois e. Whe n cha nging t o a product with a different part num ber, implement a syst em-evalu ation t est for th e give n
product.

(Max.) and VIH (Min.).

IL

(Max.) and

IL

The Evaluation Kit is not guaranteed to be error free, and the entire risk as to the results and performance of the

Disclaimer

By using this Evaluation Kit, the user accepts the following terms:

Evaluation Kit is assumed by the User. T he Evaluation Kit 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 o f intellectual property rights with regard to the
Evaluation Kit. 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 t o 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 Evaluation Kit, even if Renesas or its affiliates have been advised of the possibility of such
damages.

Precautions

The following precautions should be observed when oper ati ng any Evalu ati on Kit product:

This Evaluation Kit 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 any 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 e ncour aged to try to correct the interference by one or more of the following measures;

• ensure attached cables do not lie across the equipm ent

• 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 Evaluation Kit does not represent an ideal r eference design for an end product and does not fulfil the regulatory
standards for an end product.

The revision history summarizes the locations of revisions and additions. It does not lis t a ll re vis ion s. Refer to the text of

Document Type

Description

Document Title

Document No.

Quick Start Guide

Provides simple inst ructions setup the

Evaluation Kit for RE01 1500KB

R20UT4562EJ

Schematics

Full detail circuit schemati cs of the

Evaluation Kit for RE01 1500KB

R20UT4564EJ

Hardware Manual

Provides technical details of the RE01

RE01 Group Products with 1.5-Mbyte

R01UH0796EJ

How to Use This Manual

1. Purpose and Target Readers

This manual is designe d to provide the user with an understanding of the Evaluation Kit Evaluation Board
hardware functionality, and electrical characteristics. It is intended for users designing sample code on the
Evaluation Kit Evaluation Board platform, using the many different incorporated peripheral devices.

The man ual compris es of an ov erview of the capab ilities of the Ev aluation Kit product, but does not intend to
be a guide to embedded programming or hardware design.

Particular attention should be paid to the precautionary notes when using the manual. These notes occur within the body
of the text, at the end of each section, and in the Usage Notes section.

the manual for details.

The following documents a pply to Evaluation Kit for RE01 1500KB. Make sure to refer to th e latest versions of
these documents. The newest versions of the documents listed may be obtained from the Renesas
Electronics Web site.

User’s Manual Describes the technical details of the

Evaluation Kit hardware.

Evaluation Kit for E01 1500KB and run
the first sample.

Schematics Full detail circuit schematics of the

Evaluation Kit Main Board.

Evaluation Kit MIP-LCD Expansion
Board.

device.

Evaluation Kit for RE01 1500KB
User’s Manual

Quick Start Guide

Evaluation Kit for RE01 1500KB
main board schematics

MIP-LCD Expansion board schematics

Flash Memory User’s Manual:
Hardware

R20UT4379EJ
(This manual)

R20UT4563EJ

Abbreviation

Full Form

ADC

Analog-to-Digital Converter

bps

bits per second

CPU

Central Processing Unit

CRC

Cyclic Redundancy Check

DAC

Digital-to-Analog Converter

DIP

Dual In-line Package

DMA

Direct Memory Access

DMAC

Direct Memory Access Controller

DNF

Do Not Fit

E2

Renesas On-chip Debugging Emulator

EEPROM

Electronically Erasable Programmable Read Only Memory

EH

Energy Harvesting

EHC

Energy Harvesting Control Circuit

EMC

Electromagnetic Compatibility

ESD

Electrostatic Discharge

GPT

General PWM Timer

IRQ

Interrupt Request

LDO

Low Dropout

LED

Light Emitting Diode

MIP-LCD

Memory In Pixel - Liquid Crystal Display

n/a (NA)

Not Applicable

n/c (NC)

Not Connected

NMI

Non-maskable Interrupt

OTG

On The Go

PC

Personal Computer

PDC

Parallel Data Capture Unit

PLL

Phase Locked Loop

This is a Digilent Pmod™ Compatible connector. Pmod™ is registered to Digilent Inc.
Digilent-Pmod_Interface_Specification

POE

Port Output Enable

PWM

Pulse Width Modulation

RAM

Random Access Memory

ROM

Read Only Memory

RTC

Real Time Clock

SCI

Serial Communications Interface

SFR

Special Function Registers

SPI

Serial Peripheral Interface

TFT

Thin Film Transistor

TPU

Timer Pulse Unit

UART

Universal Asynchronous Receiver/Transmitter

USB

Universal Serial Bus

WDT

Watchdog Timer

2. List of Abbreviations and Acronyms

I2C (IIC) Philips™ Inter-Integrated Circuit Connection Bus
I-jet IAR System JTAG Emulator
J-Link OB SEGGER On-board debug probe

Pmod™

All trademarks and registered trademarks are the property of their respective owners.

Table of Contents

1. Overview ............................................................................................................................ 9

1.1 Purpose ...................................................................................................................................................... 9

1.2 Board specification ................................................................................................................................... 10

2. Power Supply .................................................................................................................. 12

2.1 Requirements ........................................................................................................................................... 12

3. Board Layout ................................................................................................................... 13

3.1 Component Layout ................................................................................................................................... 13

3.2 Board Dimensions .................................................................................................................................... 14

3.3 Component Placement ............................................................................................................................ 16

4. Connectivity ..................................................................................................................... 19

4.1 Internal Board Connections ..................................................................................................................... 19

4.2 Debugger Connections ............................................................................................................................ 20

5. User Circuitry ................................................................................................................... 21

5.1 Reset Circuit ............................................................................................................................................ 21

5.2 Clock Circuit ............................................................................................................................................. 21

5.3 Switches ................................................................................................................................................... 21

5.4 LEDs ........................................................................................................................................................ 21

5.5 Potentiometer ........................................................................................................................................... 22

5.6 Pmod™ .................................................................................................................................................... 23

5.7 MIP-LCD Expansion Board Interface ....................................................................................................... 24

5.8 USB Serial Conversion ............................................................................................................................ 24

5.9 Memory In Pixel Liquid Crystal Display (MLCD) ...................................................................................... 25

5.10 Serial Peripheral Interface (SPI) .............................................................................................................. 25

5.11 Quad Serial Peripheral Interface (QSPI) ................................................................................................. 25

5.12 Universal Serial Bus (USB) ...................................................................................................................... 26

5.13 Arduino UNO interface ............................................................................................................................. 27

5.14 Sensor board interface ............................................................................................................................. 28

5.15 Energy Harvesting Circuit ........................................................................................................................ 29

5.16 Current Measurement Circuit ................................................................................................................... 30

6. Configuration ................................................................................................................... 31

6.1 Modifying the Evaluation Kit..................................................................................................................... 31

6.2 Operating Modes ..................................................................................................................................... 31

6.3 Emulators Configuration .......................................................................................................................... 32

6.4 Power Supply Configuration .................................................................................................................... 33

6.5 Clock Configuration .................................................................................................................................. 35

6.6 Analog Power & ADC Configuration ........................................................................................................ 35

6.7 General IO & LED Configuration ............................................................................................................. 37

6.8 IRQ & Switch Configuration ..................................................................................................................... 37

6.9 PMOD1 (MIP-LCD Expansion Board) Configuration ............................................................................... 38

6.10 PMOD2 Configuration .............................................................................................................................. 38

6.11 QSPI Configuration .................................................................................................................................. 40

6.12 USB Serial Configuration ......................................................................................................................... 41

6.13 MLCD Configuration ................................................................................................................................ 42

6.14 Sensor Board Configuration..................................................................................................................... 42

6.15 USB Configuration ................................................................................................................................... 43

6.16 Arduino UNO Configuration ..................................................................................................................... 44

6.17 Energy Harvesting Configuration ............................................................................................................. 46

6.18 Current Measurement Configuration ....................................................................................................... 48

7. Headers ........................................................................................................................... 49

7.1 RE01 Headers ......................................................................................................................................... 49

8. Code Development .......................................................................................................... 53

8.1 Overview .................................................................................................................................................. 53

8.2 Mode Support .......................................................................................................................................... 53

8.3 Address Space ......................................................................................................................................... 53

9. Additional Information ...................................................................................................... 54

Evaluation Kit RE01 1500KB R20UT4379EJ0100

Rev. 1.00

Jun 26, 2019

1. Overview

1.1 Purpose

This Evaluation Kit is an evaluation tool for Renesas RE01 device. This manual d esc ribes the technical detai ls
of the Evaluation Kit hardware.

R20UT4379EJ0100 Rev. 1.00 Page 9 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 1. Overview

Item

Specification

Part No : R7F0E015D2CFB

Package : 144-pin LFQFP

On-Chip Memory : ROM 1.5MB, RAM 256KB

On-Board Memory

SPI Serial Flash: 64Mbit

RE01 Main: 32MHz

RE01 Sub: 32.768kHz

RX621(SEGGER J-Link OB) Main: 12MHz

DC Power Jack : 5 V Input

Power Supply IC : 5V Input, 3.3V Output

Power Supply IC: 2.6V Input, 3.3V Output(For peripheral circuit power when EH function enable)

I-jet / J-Link / E2 20-pin box header

USB Connector for J-Link OB

Mode Configuration : 1-pole x 2

For Normal / EH Switch : 3-pole x 2

Reset Switch x 1

User Switch x 3

Potentiometer (for ADC)

Single-turn, 10kΩ

5V Power indicator: green x 1

USB Function: USB-MicroB

USB Host: USB-TypeA

MLCD

FPC: 0.3mm pitch,19-pin x 1

Connector: USB-MicroB

Driver: USB Interface IC (Part Number FT230XQ)

Interface *1

PMOD1 *2: Angle type, 12-pin Connector

Solar Panel Interface

2.54mm pitch: 2-pin x 1

2.54mm pitch: 10-pin x 1 (J6),8-pin x 2 (J10, J18),6-pin x 1 (J19)

RE01 Header *4

2.54mm pitch: 36-pin x 4 (J7, J8, J9, J21)

1.2 Board specification

Board specification was shown in Table 1-1,Table 1-2 below.

Table 1-1: Board Specification

Target Device

Input Clock

Power Supply

Debug Interface*1

Slide Switch

Push Switch

LED

USB

USB to Serial Converter Interface

MIP-LCD Expansion Board

Pmod™

External Battery Interface
Sensor Board Interface

Arduino UNO Interface

*1

: Use each debugger exclusively. When using J-Link OB, do not connect other emulators.

*2

: PMOD1 is used both on MIP-LCD Expansion Board and PmodTM.

*3

: The external battery is not included to a product.

*4

: The connector is not included to a product.

User: green x 1, orange x 1, red x 1

2.54mm pitch: 12 pin x 1(PMOD1)

PMOD2 : Angle type, 12-pin Connector

3

3.5mm pitch: 2-pin x 1 *

2.54mm pitch: 8-pin x 1 *

4

R20UT4379EJ0100 Rev. 1.00 Page 10 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 1. Overview

Item

Specification

Part No: TN0181ANVNANN-AN00*1 (KYOCERA)

Size: 1.81 inch

Resolution: 200dpi (256(H) x 256(V))

Main Board Interface

2.54mm pitch: 12-pin x 1(PMOD1)

Table 1-2: MIP-LCD Expansion Board Specification

MIP-LCD

*1

: Please contact KYOCERA.

R20UT4379EJ0100 Rev. 1.00 Page 11 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 2. Power Supply

Emulator

Supply voltage

Supply current

I-jet

5V

Maximum 420mA

J-Link OB

5V

Maximum 500mA

J-Link

5V

Maximum 300mA

Connector

Supply voltage

J13*1

Setting

J22

Setting

J23

Setting

Supply Source

Board_5V

Board_3V3

LP_PRODUCT_3V3

UC_VCC

All

Pin1-2

-*2

PWR / J-link OB
MIPI_5V

5.0V

3.3V

3.3V

3.3V

Pin2-3

shorted

Pin1-2

shorted

VCC_MCU

-*3

-*3

3.3V

3.3V Pin2-3
shorted

RE-BATTERY_VCC

-*3

-*3

3.3V

3.3V

Shorted

Pin1-2

shorted

-*2

VBUS

5.0V

3.3V

3.3V

3.3V

Pin2-3

Pin1-2

shorted

VCC_MCU

-*2

-*2

3.3V

3.3V

Pin2-3

shorted

RE-BATTERY_VCC

-*3

-*3

3.3V

3.3V

2. Power Supply

2.1 Requirements

This Evaluation Kit was supplied with power supply from emulator. The detail was shown in Table 2-1. When
the Evaluation Kit is connected to another system then that system should supply power to the Evaluation Kit.
This board has an optional center positive supply connector using a barrel power jack.

Table 2-1: Emulator Power Supply Requirements

*

: Do not supply power to the Evaluation Kit from the E2 emulator or E2 emulator Lit e . Connect an external

power supply when using the E2 emulator or E2 emulator Lite.

This Evaluation Kit support 5V input voltage and specific setting was not needed. Details of the external power
supply requirements for t he Evaluation Kit, and con figuration were sh own in Table 2-2 and Table 2-3 below.
The default Evaluation Kit power configuration was shown in bold, blue text.

Table 2-2: PWR connector Requirements

PWR Input 5VDC

Table 2-3: Main Power Supply Requirements

Open

shorted

shorted

USB_5V / I-jet

*1

: The jumper is not included in the product.

*2

: Don’t care.

*3

: Set jumper J22 2-3 shorted when using EHC. Besides, external pow er sup ply is not assumed when using EHC.

The main power supply connected to PWR1 should supply a minimum of 5W to ensure full functionality.

R20UT4379EJ0100 Rev. 1.00 Page 12 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 3. Board Layout

PMOD2

USB
Func

FT232XQ

USB to Serial Port

J19J10

PMOD1

J7

FLASH MEMORY

J9

J18J6

Solar P anel

Interface

J21

USB

Func

RX621

(100pin

LQFP)

J8

MIP-LCD Connector

RE01 Headers

DC PWR I N

(5V)

User Switches

PMOD

Connector

Power LED
5V_PWR(GREEN)

Reset

Switch

Potentiometer

USB
Host

USB

Function

LED 2

LED 1

LED 0

User LEDs

Arduino UNO Interface

SW1 SW2 SW3

MIP-LCD

Expansion Board

Interface

Sensor Board

Interface

Emul ator connector

USB

Function(FT232XQ)

J-LINK OB

USB Function

(RX621)

External-Battery

Interface

Slide Switch

Solder S ide Component

Super Capacitor

RES

RE01 1500KB

(144pinLQFP)

MODE
Switch

CN1

PMOD1

MIP-LCD Panel

Main Board

Interface

FPC Connector

3. Board Layout

3.1 Component Layout

Figure 3-1, Figure 3-2 below show component layout of Evaluation Kit.

Figure 3-1: Main Board Layout

R20UT4379EJ0100 Rev. 1.00 Page 13 of 58
Jun 26, 2019

Figure 3-2: MIP-LCD Expansion Board Layout

Evaluation Kit RE01 1500KB 3. Board Layout

4.0mm phai

12.0mm phai

PWR

PMOD2

USB
Func

J19J10

PMOD1

Sensor

J7

J9

J18J6

Emulator

J21

USB

Func

RX621

(100pin

LQFP)

J8

SW5

SW6

SCAP

RE01 1500KB

(144pin LQFP)

SW4

SW7

USB_1

USB_2

CN3

7mm

7mm

5.9mm

15.24mm

17.20mm

34.98mm

35.40mm

39.044mm

78.58m

125.00m

54.16mm

70.94mm
80mm

121.74mm

129.36mm

142.06mm

170.00mm

3.2 Board Dimensions

Figure 3-3, Figure 3-4 below show the board dimensions and connector positions. All the through-hole

connectors are on a common 2.54mm pitch grid for easy interfacing.

Figure 3-3: Main Board Dimensions

R20UT4379EJ0100 Rev. 1.00 Page 14 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 3. Board Layout

CN

1

PMOD

1

MIP

-LCD Panel

55.0mm

82.0mm

4.0

mm phai

12.0mm phai

Figure 3-4: MIP-LCD Expansion Board Dimensions

R20UT4379EJ0100 Rev. 1.00 Page 15 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 3. Board Layout

PMOD

2

Sensor1

USB_1

USB_2

SW8

SW9

T20 T21

BT2

GND2

R1

USB1

D1 D2

D3

L1

R3

R4

R6

R7

R8

R5

CN2

R17 R23

GND1

PMOD1

R12
R14
R20

R19

U6

C3

C4

C9

R13
R18
R24

R2

T8

C5

C6

R11

J3

J2

R15

R16

R25

R21

D5 D6

L3

R26

R27

D4

R10

R9

T19

T18

C7

C8

SW5

SW6

C1

C2

J23

J1

U7

R29

X3

R41
R44

R173

R49
C14

GND3

C10

C11

R37

R39

R42

R45

R47

R51

R55

R59

C12

C13

R35

T7

T6

R294

T17

BT1

R61

C19

J-Link_

10pin_Needle

T1

R48

R52

R53

R54

C16

C15

R58

J4

J5

T9

T10

R33
R36
R40

R43
R46
R50
R56
R60
R62
R68
R73
R76
R80
R84

R63

R92

R96
R100
R105
R109

R111
R114
R117
R121
R124

R67
R72
R75
R79
R83
R87
R91
R95

R108
R110
R113
R116
R120
R123

C22

U1

C17

C21

R69

C18

C20

X1

R66
R74

R103

R99

R104

X2

C25

C23

C28

R127

C31

R112
R115
R119

C32 C33 C34

C37 C38

J14

CN3

R64 R65
R70 R71
R77 R78

R81 R82
R85 R86
R89 R90
R93 R94
R97 R98

R88

R101 R102
R106 R107

L12

L4

C26

C24

T5

USB2

C29

C30

R125

R118
R122

L5
L6

J13

C27

R128
R129

J7

J8

T16

T15

J17

R126

C35

C36

C39

J15

T14

T13

J16

T12

T11

J12

J9

T3

J10

J19

J6 J18

PWR1

D7

C40

C41

L7

R159

T2

T4

J20

R158

C42

C43

L8

L9

U4

U5

C47

C48

U11

C67

R135

R136

R137

R138

R139

R140

R141

R142

R143

R144

R145

R146

R147

R148

R149

R150

R151

R152

R153

R154

R155

R156

R157

POWLED1

R161

GND6

C44

U2

J22

L11

C50

SW1

SW2

SW3

C45

U3

L10

C46

U10

C66

J21

R164

R165

R166

LED0

R170

LED1

R171

LED2

R172

C49

R162

RES

R167

SW4

SW7

GND5

R168

R169

C51

C52

RV1

C64

GND4

3.3 Component Placement

Figure 3-5, Figure 3-6, Figure 3-7 below show placement of individual components of Evaluation Kit .

Component types and values are shown on the board schematics.

R20UT4379EJ0100 Rev. 1.00 Page 16 of 58
Jun 26, 2019

Figure 3-5: Main Board Top-Side Component Placement

Evaluation Kit RE01 1500KB 3. Board Layout

R182

R181

R180

R179

R178

R177

R176

R175

R174

R287

R288

C56

C55

U8

R185

R183

C57

C54

C53

C58

C59

R57

SW10

R186
R187
R184
R191
R194
R198
R202
R205
R208
R211

R215
R217

C63

C65

U9

J7

R213
R216

R218
R219

R224
R227
R230
R233
R236
R240
R242
R243
R245
R247
R249
R250
R251

J8

R188

R189
R192
R195
R199
R203
R206
R209
R212
R214

R235
R232
R220
R222

R226
R229

C60

R293

C61
C62

R239

R238

R225
R228

R231

R234
R237
R241

J9

R190
R193
R197

R290
R289
R292
R291

R207

R210

R201

R204

R281

R280

R277

R276

R275

R274

R273

R272

R271

R270

R269

R268

R267

R266

R265

R264

R263

R262

R261

R260

R259

R258

R257

R256

R255

R254

R253

R252

R283

R282

J21

R284

R286

R285

Figure 3-6: Main Board Bottom-Side Component Placement

R20UT4379EJ0100 Rev. 1.00 Page 17 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 3. Board Layout

CN1

PMOD1

Figure 3-7: MIP-LCD Expansion Board Top-Side Component Placement

R20UT4379EJ0100 Rev. 1.00 Page 18 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 4. Connectivity

RE01 1500KB

144

pin

LQFP

VCC/IOV CC

5V DC PWR IN ( 5V )

・AC Adapter

・USB VBUS

・J-Link OB debugger

・I-jet debugger

3V3

5V

USB Serial

USB Function

UART

Emulator

Connector

OB

Debugger

(segger J-Link)

USB Function

SWD

Interface

USB (Function/Host)

Arduino UN O

Interface

MIP

-LCD(Serial)Expansion

Board Interface(PMO D1)

MCU Header

MD
EHMD

Slide Sw itch

Sensor Expansion Board

Interface

Flash Memory

QSPI

Pmod Connector(PMOD2)

Potentiometer

Solar Panel

E xternal Battery Interface

or

Super CAP

VSC

VBAT

ADC

P ower LE D

User LE D

I/O

MIP-LCD(Parallel)

Interface

MLCD

Sw itch

SW SW SW

Reset

IRQ

SW

KINT

IRQ_DS

CMSIS-DAP

MCU

(RX621

100pin)

Slide Sw it c h

E nergy Harvest Ci rcuit

IOVCC0-3

AVCC0-1

VREFH0

VCC_USB

DCDC Conv erter

Jumper

Jumper

DCDC Conv erter

4. Connectivity

4.1 Internal Board Connections

The diagram below shows the Evaluation Kit components and their connectivity to the RE01.

R20UT4379EJ0100 Rev. 1.00 Page 19 of 58
Jun 26, 2019

Figure 4-1: Internal Board Block Diagram

Evaluation Kit RE01 1500KB 4. Connectivity

Host PC

Main Board

USB Cable

Host PC

I-jet, J-Link, etc

Main Board

User Interface Cable

USB Cable

4.2 Debugger Connections

4.2.1 J-Link OB Figure 4-2 shows the connections between Main B oard (J-Link OB) a nd host PC. When J-Link OB is used,

disconnect other emulators.

Figure 4-2: Debugger Connection Diagram (J-Link OB)

4.2.2 The Emulators excluding J-Link OB. Figure 4-3 shows the connections between Main Board, emulator and host PC. When using an emulator

excluding J-Link OB, disconnect J-Link OB (USB C able).

Figure 4-3: Debugger Connection Diagram (excluding J-Link OB)

R20UT4379EJ0100 Rev. 1.00 Page 20 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 5. User Circuitry

Crystal

Function

Default Placement

Frequency

Device Package

X1

Main crystal for RE01

Fitted

32MHz

Encapsulated, SMT

X2

Sub crystal for RE01

Fitted

32.768kHz

Encapsulated, SMT

X3

Main crystal for RX621

Fitted

12MHz

Encapsulated, SMT

RE01

Signal (Port)

Pin

RES

When pressed, the RE01 is reset.

RES#

34

SW1

Connects to a KINT00 input for user controls.

P100

99

SW2

Connects to an IRQ4_B input for user controls.

P508

107

SW3

Connects to an IRQ2_A_DS input for user controls.

P410

23

RE01

Port

Pin

5VPWR

Green

Board_5V Power line indicator

NC

NC

LED0

Green

User LED

P009

125

LED1

Orange

User LED

P008

126

LED2

Red

User LED

P007

127

5. User Circuitry

5.1 Reset Circuit

A reset contr ol c ircuit is f itted to the Evaluation Kit to generate the re quired reset signal, and is triggered fr om
the RES switch. Refer to the RE01 Group User’s Manual: Hardware for details regarding the reset signal
timing requirements, an d the Evaluation Kit schematics for information regarding the reset circuitry in use on
the board.

5.2 Clock Circuit

A clock circuit is fitted to the Evaluation Kit to generate the required clock signal to drive the RE01, and
associated peripherals. Refer to the RE01 Group User’s Manual: Hardware and the RX621 Group Hardware
Manual for details re garding the cl ock signal req uirements, and th e Evaluation Kit s chematics for information
regarding the clock circuitry in use on the Evaluation Kit. Details of the oscillator s fitted to the board are listed
in Table 5-1 below.

Table 5-1: Crystal

5.3 Switches

There are four switches loc ated on the main board. The funct ion of eac h s w itc h a nd i ts connection was show n
in Table 5-2. For further information regarding switch connectivity, refer to the main board schematics.

Table 5-2: Switch C o nn ections

Switch Function

5.4 LEDs

There are 4 LEDs on the main board. The func tion of eac h LED, its c olour, and its connections were shown i n

Table 5-3.

Table 5-3: LED Connections

LED Colour Function

R20UT4379EJ0100 Rev. 1.00 Page 21 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 5. User Circuitry

5.5 Potentiometer

A s in gl e -turn potentiometer is connected as a potenti al divider to analog input AN028 (Port P506, Pin 109).
The potentiometer can be used to create a voltage between Board_3V3 and ground.
Refer to the manufacturer's website for specification of the potentiometer (Bourns with part number 3314
series).

The potentiometer offers an easy method of supplying a variable analog input to RE01. It does not necessarily reflect
the accuracy of the controller’s ADC. Refer to the RE01 Group User’s Manual: Hardware for further details.

R20UT4379EJ0100 Rev. 1.00 Page 22 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 5. User Circuitry

Digilent Pmod™ Compatible Header Connections

RE01

RE01

Port

Pin

Port

Pin

1

PMOD1-SSLB0_B

P610

73

7

PMOD1-INT

P606

77 2 PMOD1-MOSIB_B

P609

74

8

PMOD1-RESET

P605

78 3 PMOD1-MISOB_B

P608

75

9

PMOD1-IO0

P302

70 4 PMOD1-RSPCKB_B

P607

76

10

PMOD1-IO1

P303

69 5 GROUND

- - 11

GROUND

-

- 6 LP_PRODUCT_3V3

- - 12

LP_PRODUCT_3V3

-

-

Digilent Pmod™ Compatible Header Connections

RE01

RE01

Port

Pin

Port

Pin

P012

P601*1

121

82

PMOD2-IO0_QIO2_A

P603

P014*1

80

119

2

P010

P500*1

123
115

8

PMOD2-IO1_QIO3_A

P300

P013*1

72

120

P500
P015

115
118

PMOD2-IO2

P604

79

4

P011

P602*1

122

81

10

PMOD2-IO3

P306

64
5

GROUND

- - 11

GROUND

- - 6

LP_PRODUCT_3V3

- - 12

LP_PRODUCT_3V3

-

-

5.6 Pmod™

The CPU board are equipped with connectors for Digilent Pmod™ interface. Please connect the PMOD1,
PMOD2 connector that is compatible with PMOD module.

The Digilent Pmod™ Compatible headers use an SPI interface. Figure 5-1 below shows Digilent Pmod™
Compatible Header Pin Numbering. Connection information for the Digilent Pmod™ Compatible header is
provided in Table 5-4 and Table 5-5 below.

Please note that the connector numbering adheres to t he Digilent Pmod™ s ta ndard and is d iffe re nt fr o m ot her
connectors pin designs. Details can be found in the Di gil ent Pm od™ Inter fac e Sp ecification.

Figure 5-1: Digilent Pmod™ Compatible Header Pin Numbering

Table 5-4: Pmod™1 Header Connections

Pin Circuit Net Name

Pin Circuit Net Name

Table 5-5: Pmod™2 Header Connections

Pin Circuit Net Name

1 PMOD2-SSLA0_B_QSSL_A

PMOD2-MOSIA_B_QIO0_A

3 PMOD2-MISOA_B_QIO1_A

PMOD2-RSPCKA_B_QSPCLK_A

*1

: This connect ion is a not available in the default Evalu ation Kit configuration - refer to §6 for th e required

Pin Circuit Net Name

7

9

modifications.

R20UT4379EJ0100 Rev. 1.00 Page 23 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 5. User Circuitry

RE01

Port

Pin

SCI9 Transmit Signal. *1

P411

22

SCI4 Transmit Signal.

P812

143

SCI9 Rec eive Signal. *1

P207

33

SCI4 Receive Signal.

P813

142

USB SERIAL-CTS

Clear To Send.

P814

141

USB SERIAL-RTS

Request To Send.

P811

144

5.7 MIP-LCD Expansion Board Interface

Main board has connector for MIP-LCD expansion board interface. Connect MIP-LCD expansion board to
PMOD1. PMOD1 is comp at ible w ith PMOD mo dul e.

*1

MIP-LCD (KYOCERA with part number TN0181ANVNANN-AN00

) loaded on MIP-LCD expansion board
uses Serial Peripheral Inter face (SPI) built in RE01.
Refer Figure 5-1 for pin number and Table 5-4 for connection with PMOD1.

*1

: Please contact KYOCERA.

5.8 USB Serial Conversion

A USB serial port is implemented in a FTDI chip USB serial converter (FT230XQ) and is connected to the
RE01 Serial Communications Interface (SCI) module (SCI4 port). Connections between the USB to Serial
converter and the RE01 are listed in Table 5-6 below.

Table 5-6: USB serial Connections

Signal Name Function

USB SERIAL-TXD

USB SERIAL-RXD

*1

: This connect ion is a not available in the default Evaluation Kit configuration - refer to §6 for the required

modifications.

Driver provided by FTDI chip need to b e prepared before when us ing this function. T he driver needed is as
below.

• VIRTUAL CON PORT(VCP) Drivers

Please download the driver installer from the following URL.

http://www.ftdichip.com/Products/ICs/FT230X.html

R20UT4379EJ0100 Rev. 1.00 Page 24 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 5. User Circuitry

RE01

Port

Pin

MLCD_VCOM

Common electrode polarity signal pin

P113

84

MLCD_XRST

LCD control output pin

P112

85

MLCD_SCLK

Serial output clock pin for communications

P111

86

MLCD_DEN

Data identification signal pin

P110

87

MLCD_ENBS

Horizontal data enable pin

P109

88

MLCD_ENBG

Vertical data enable pin

P108

89

MLCD_SI0

P107

92

MLCD_SI1

P106

93

MLCD_SI2

P105

94

MLCD_SI3

P104

95

MLCD_SI4

P103

96

MLCD_SI5

P102

97

MLCD_SI6

P101

98

MLCD_SI7*1

P100

99

Slave Select

Device

Device description

SSLA0_B(PMOD2-SSLA0_B_QSSL_A)

PMOD2

PMOD2 connector

SSLA0_B(ARDUINO-SSLA0_B)

*1

J6

Arduino UNO interface connector

SSLB0_B(PMOD1-SSLB0_B)

PMOD1

PMOD1 connector

Slave Select

Device

Device description

Address map

QSSL_A(QSPI-QSSL_A)

U6

SPI Serial Flash,64M bit

60000000h – 63FFFFFFh

QSSL_A
(PMOD2-SSLA0_B_QSSL_A)

PMOD2

PMOD2 connector

-

5.9 Memory In Pixel Liquid Crystal Display (MLCD)

One channel of MIP Liquid Crystal Controller (MLCD) is built in RE01 and can be connected to MIP-LCD
(KYOCERA with part number TN0104ANVAANN-GN00
connection of MLCD was shown in Table 5-7.

*1

: Please contact KYOCERA.

Table 5-7: MLCD Connections

Signal name Function

Image data signal pin

*1

) through FPC connector (CN3) on main board. The

*1

: This connect ion is a not available in t he default Evaluation Kit configuration - refer to §6 for th e required

modifications.

5.10 Serial Peripheral Interface (SPI)

The RE01 features two Serial Peripheral Interface (SPI). Channel 1 connect PMOD2 and Arduino UNO
interface on main board. Channel 2 connect PMOD1 on main board. The connection of SPI was shown in

Table 5-8. For the detail on device connected to SPI, refer to main board schematic.

Table 5-8: SPI Connections

*1

: This connection is a not available in the default Evaluation Kit configuration - refer to §6 for the required

modifications.

5.11 Quad Serial Peripheral Interface (QSPI)

The RE01 features one Quad Serial Peripheral Interface modules (QSPI) and is connected to flash memory
and PMOD2 on main board. The connection of QSPI was shown in Table 5-9. For the detail on device
connected to QSPI, refer to main board schematic.

Table 5-9: QSPI Connections

R20UT4379EJ0100 Rev. 1.00 Page 25 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 5. User Circuitry

RE01

Port

Pin

USB_DP

D+ I/O pin of the USB on-chip transceiver

USB_DP

44

USB_DM

D- I/O pin of the USB on-chip transceiver

USB_DM

43

USB_VBUS

USB cable connection monitor pin

P204

47

USB_VBUSEN_B

VBUS enable signal for the external power supply
IC

USB_OVRCURB_B

Overcurrent pin for USB

P509

106

5.12 Universal Serial Bus (USB)

This main board is fitted with a USB Host socket (type A) and a Function socket (type Micro B). USB module
USB is connected to the Host and Function socket and can operate as either a Host or Function device. The
connection for the USB module was shown in Table 5-10 below.

Table 5-10: USB Module Connections

USB Signal name Function

P504 111

R20UT4379EJ0100 Rev. 1.00 Page 26 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 5. User Circuitry

Arduino UNO Interface Connector (J6)

RE01

RE01

Port

Pin

Port

Pin

1

ARDUINO-IO6

P702

52

6

ARDUINO-RSPCKA_B*1

P011

122

2

ARDUINO-IO7

P202

49

7

GROUND

-

-

3

ARDUINO-SSLA0_B*1

P012

121

8

VREFH0

-

-

4

ARDUINO-MOSIA_B*1

P010

123

9

ARDUINO-SDA1

P700

54

5

ARDUINO-MISOA_B*1

P500

115

10

ARDUINO-SCL1

P701

53

Arduino UNO Interface Connector (J10)

RE01

RE01

Port

Pin

Port

Pin

1

NC

-

-

5

Board_5V

- - 2

Board_5V

-

-

6

GROUND

-

- 3 ARDUINO-RESn

RES#

34

7

GROUND

-

- 4 LP_PRODUCT_3V3

-

-

8

NC

-

-

Arduino UNO Interface Connector (J18)

RE01

RE01

Port

Pin

Port

Pin

1

ARDUINO-RXD5_B

P314

56

5

ARDUINO-IO2

P806

7

2

ARDUINO-TXD5_B

P315

55

6

ARDUINO-IO3

P409

24

3

ARDUINO-IO0

P808

5

7

ARDUINO-IO4

P304

68

4

ARDUINO-IO1

P807

6

8

ARDUINO-IO5

P305

65

Arduino UNO Interface Connector (J19)

RE01

RE01

Port

Pin

Port

Pin

1

ARDUINO-AN000

P000

136

4

ARDUINO-AN003

P003

132

2

ARDUINO-AN001

P001

135

5

ARDUINO-AN004

P004

131

3

ARDUINO-AN002

P002

133

6

ARDUINO-AN005

P005

130

5.13 Arduino UNO interface

This main board is fitte d with Arduino UNO interface connector and can be connected to each shield. The
connection for the Arduino UNO interface wer e shown in Table 5-11, Table 5-12, Table 5-13 and Table 5-14
below.

Table 5-11: Arduino UNO Interface Connections (1)

Pin

*1

: This connect ion is a not available in the default Evaluation Kit configuration - refer to §6 for the required

Signal name

Pin

Signal name

modifications.

Table 5-12: Arduino UNO Interface Connections (2)

Pin

Signal name

Pin

Signal name

Table 5-13: Arduino UNO Interface Connections (3)

Pin

Signal name

Pin

Signal name

Table 5-14: Arduino UNO Interface Connections (4)

Pin

Signal name

Pin

Signal name

R20UT4379EJ0100 Rev. 1.00 Page 27 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 5. User Circuitry

Sensor Board Interface Connector (Sensor1)

RE01

RE01

Port

Pin

Port

Pin

1

RIIC-SCL1*1

P701

53

5

GROUND

-

- 2 RIIC-SCL1*1

P701

53

6

GROUND

-

-

3

RIIC-SDA1*1

P700

54

7

LP_PRODUCT_3V3

-

- 4 RIIC-SDA1*1

P700

54

8

LP_PRODUCT_3V3

-

-

5.14 Sensor board interface

This main board is provided with through-hole pattern that can be connected to conventional I2C interface
sensor board. The connection for sensor board interface was shown in Table 5-15.

Table 5-15: Sensor Board Interface

Pin

*1

: This connect ion is a not available in the default Evaluation Kit configuration - refer to §6 for the required

Signal name

Pin Signal name

modifications.

R20UT4379EJ0100 Rev. 1.00 Page 28 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 5. User Circuitry

Solar Panel(T20)

RE01

RE01

Port

Pin

Port

Pin

1 - VSC_VCC

40

-

-

-

-

Solar Panel(T21)

RE01

RE01

Port

Pin

Port

Pin

1

-

VSC_GND

41

-

-

-

-

External Battery (BT2)

RE01

RE01

Port

Pin

Port

Pin

1

RE-BATTERY_VCC

VBAT_EHC

39

2

GROUND

-

-

5.15 Energy Harvesting Circuit

This main board has an Energy Harvesting (EH) function. By supplying pow er to por t V SC_ VCC of RE01 from
solar panel, some parts of the board can operate.

5.15.1 Solar Panel The board has two test points where a solar panel can be c onnected. The connectio ns are shown in Table

5-16, Table 5-17. Connect the solar panel to these test points.

Table 5-16: Solar Panel (T20)

Pin

Signal name

Pin Signal name

Table 5-17: Solar Panel (T21)

Pin

Signal name

Pin Signal name

5.15.2 Supercapacitor / External Battery

This main board can connect either a supercapacitor or an external battery to port VBAT_EHC of the RE01.
If a supercapacitor is selected, the supercapacitor may hav e been discharged, so it needs to be charged.
When charging, connec t the test point (T17) and the stabilized power supply. Set the charge voltage to the
setting of the charge v oltage specified in t he External Battery Char ging Voltage Select bit (VBATSEL) of the
Option Function Selection Register 1 (OFS1) of the RE01.
If an external battery is selec ted, you will need to fit an external battery. The connection is shown in Table
5-18. The recommended external battery is the SLB series (Nichicon). The current generated by the solar

*1

panel

included in this Eva luat ion Kit is 42μA. De pending o n the operat ion setting s of the RE01, c harging the
recommended exter nal battery takes time. Pleas e consider charging b efore fitting on the boar d according to
the evaluation contents.

*1

: Panasonic AM-1815CA, Operating Voltage 3.0V, Operating current 42µA (Fluorescent light : 200lx(25℃))

Table 5-18: External Battery (BT2)

Pin

5.15.3 DC / DC Converter Control

When using the energy harvesting function to drive the user circu it, t he DC / DC converter must be ena bled t o
supply voltage to th e user c ircuit. The DC / DC conve rter is contr olled by t he P404 p in of the RE01. The DC /
DC converter is enabled by br ing ing P4 04 h ig h. To enable the DC / DC converter, make sure that the c harg in g
voltage of the exter nal b attery or superc apacitor is en ough, this voltage is the value of t he VBATSEL setting -

2.6 or 3.0V.

R20UT4379EJ0100 Rev. 1.00 Page 29 of 58
Jun 26, 2019

Signal name

Pin Signal name

Evaluation Kit RE01 1500KB 5. User Circuitry

5.15.4 Available User Circuits

When using the en ergy harvesting function, only some user circuits can be used. Available user circuits are
LED (LED0-2), switches (SW1, SW2, SW3), PMOD1 (MIP-LCD expansion board), PMOD2, MLCD, flash
memory (U2), sensor board interface, Arduino UNO interface.

5.16 Current Measurement Circuit

This main board can measure the current of the RE01. It is necessary to modify the board to measure the
current. Open J20. By connecting an ammeter to J20, the current of the RE01 can be measured. Or a
precision resistor ca n be fitted in location R158 and t he voltage measured with an oscillos cope for greater
accuracy, and visibility of the current waveform.

R20UT4379EJ0100 Rev. 1.00 Page 30 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 6. Configuration

When modifying a link resistor, always check the related op tio n li nk s t o ens u r e the r e is no possible signal contention or

SW4

SW7

Explanation

Related Ref.

1-2 shorted
(High)

1-2 shorted
(High)

Energy Harvesting start-up

1-2 shorted
(High)

2-3 shorted
(Low)

Normal start-up

-

2-3 shorted
(Low)

-

-

6. Configuration

6.1 Modifying the Evaluation Kit

This section lists the opti on links that ar e used to modify the way Evaluation Kit operates in order to access
different configurations. Configurations are made by modify ing link resistors or he aders with mov able jumpers
or by configuration switches

A link resistor is a 0Ω surface mount res istor, which is used to short or isolate parts of a c ircuit. Option links
are listed in the following sections , detailing their function whe n fitted or removed. Bold, blue text indicates
the default configurat ion that the Evaluat ion Kit is supplied with. Refer to t he component placeme nt diagram
(§3) to locate the option links, jumpers and switches.

When rem oving soldered components, always ensure that the Evaluation Kit is not exposed to a soldering iron for
intervals greater than 5 seconds. This is to avoid damage to nearby components mounted on the board.

short circuits. Because many of the RE01 pins are multiplexed, som e of the peripherals must be used exclusively.
Refer to the RE01 Group User’s Manual: Hardware and each board schematics for further information.

6.2 Operating Modes

Table 6-1 below details the option links associated with configuring the Operating Modes.

Table 6-1: Operating Modes Switch Settings

-

Single Chip Mode

don’t care SCI / USB Boot Mode

R20UT4379EJ0100 Rev. 1.00 Page 31 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 6. Configuration

RE01

RE01 Peripheral Selection

Destination Selection

Pin

Port

Interface

/Function

SW6.Pin5

-6

SW6.Pin4

-5

R7,

-5

R197

U9.15

R193

SW6.Pin8

-9

SW6.Pin7

-8

R6,

-8

R115

U9.2

SW6.Pin2­3

SW6.Pin1

-2

SW-RESn

- - RES(Switch)

-

-

R61,

-2

ARDUINO-RESn

- - J10.3

-

-

J9-RESn

Reference

Switch position

Description

Related Ref.

Shorted Pin1-2, Pin4-5,
Pin7-8

Shorted Pin2-3, Pin5-6,
Pin8-9

6.3 Emulator Configuration

Table 6-2 below details the function of the option links associated with the Emulator’s Configuration.

Table 6-2: Emulator Configuration Option Links Settings

Signal

name

P207 33 P207

P411 22 P411

RESn 34 RES#

Signal Fit DNF

SWDIO R190 R193, R197 CN2.2

SWDIO R190 R193, R197 U7.28

USB SERIAL-RXD R193 R190,
J9-P207 R197 R190,

SWCLK R112 R115, R119 CN2.4

SWCLK R112 R115, R119 U7.30

USB SERIAL-TXD R119 R112,
J9-P411 R115 R112, R119 J9.14 - -

I-jet MIPI-RESn - - CN2.10

RX621-RESn - - U7.93

- - J9.23 -

- -

J9.22 - -

- -

SW6.Pin4

SW6.Pin7

SW6.Pin1

Fit DNF

SW6.Pin5

-6

SW6.Pin8

-9

SW6.Pin2

-3

-

Use each debugger exclusively. When using J-Link OB, disconnect the other emulators. When using the other
emulators, disconnect J-Link OB and PC.
Do not fitted R5 when using the E2 Emulator or E2 Emulator Lite.

Table 6-3 below details the function of the switch associated with the Emulator’s Configuration.

Table 6-3: Emulator Configuration switch Settings

SW6

R20UT4379EJ0100 Rev. 1.00 Page 32 of 58
Jun 26, 2019

Use J-Link OB.

U1

Use the emulators excluding J-Link OB.

Evaluation Kit RE01 1500KB 6. Configuration

Reference

Function

Fit

DNF

Related Ref.

PWR1

Connect PWR1 to 5V power rail

- - U2

Connect VBUS to Board_5V
power rail

J13.shorted*1,

J2.Pin2-3

Connect Board_5V to 5V power

rail

POWLED1, J21.2, J9.2, J8.2,
J10.2, J10.5

,

U1, J5.Pin1-2, J12.Pin1-2,

J17.Pin1-2, SW5.1, SW5.4

consumption

U1, J5.Pin1-2, J12.Pin1-2,

J17.Pin1-2, SW5.1, SW5.4

Enable current probe for

oscilloscope)

U3, CN2, R52, R53, R54,

PMOD2, U6,Sensor1,J10

U3, CN2, R52, R53, R54,

PMOD2, U6,Sensor1,J10

Normal Operation

J5.Pin1-2

J5.Pin2-3

U1

Supply from Stabilized Power
Supply

J5.Pin1-2

J5.Pin2-3

Normal Operation

J12.Pin1-2

J12.Pin2-3

U1

Supply from Stabilized Power
Supply

J12.Pin1-2

J12.Pin2-3

Normal Operation

J16.Pin1-2

J16.Pin2-3

U1

Supply fr om Stabilized Power
Supply

EH Operation

J16.Pin1-2

J16.Pin2-3

U1

Normal Operation

J17.Pin1-2

J17.Pin2-3

U1

Supply fr om Stabilized Power
Supply

EH Operation

J17.Pin1-2

J17.Pin2-3

U1,J15

6.4 Power Supply Configuration

Table 6-4 below details the f unct ion of the option links associated with the Power Supply Configuration.

Table 6-4: Power Supply Configuration Option Links Settings

VBUS

Board_5V

UC_VCC

LP_PRODUCT_
3V3

VCC/IOVCC

R159

*2

Connect UC_VCC to 3.3V power

rail

R158

J20.shorted,
J22.Pin1-2

Enable current probe for
measurement RE01 current

-

measurement RE01 current
consumption

R158*2

(When measuring current using an

Normal Operation J22.Pin1-2 -

EH Operation J22.Pin2-3 -

J5.Pin2-3 J5.Pin1-2 U1

- U2

-

*2

R158

,

J20.open,

J15.Pin1-2, J16.Pin1-2,

J15.Pin1-2, J16.Pin1-2,

J22.Pin1-2

J20.open,
J22.Pin1-2

U1, J5.Pin1-2, J12.Pin1-2,
J15.Pin1-2, J16.Pin1-2,
J17.Pin1-2, SW5.1, SW5.4

R164, R165, R166, R284,
R285, R286, CN3, PMOD1,

R164, R165, R166, R284,
R285, R286, CN3, PMOD1,

EH Operation -

IOVCC0

EH Operation

AVCC0

VREFH0

*1

: Jumper J13 is not fitted on the default Evaluation Kit.

*2

: Resistor R158 is not fitted on the def aul t Evalu ati on Kit.

J12.Pin2-3 J12.Pin1-2 U1

-

J16.Pin2-3 J16.Pin1-2

J17.Pin2-3 J17.Pin1-2 U1

U1

U1

U1

R20UT4379EJ0100 Rev. 1.00 Page 33 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 6. Configuration

Reference

Jumper Position

Description

Related Ref.

Connect regulator 3.3V output (UC_VCC) to
U1(Normal Operation)

Connect output from Stabilized Power Supply to
U1 (Normal Operation)

Connect output voltage from U1 (VCC_MCU) to
regulator (EH Operation)

Connect regulator output 3.3V (UC_VCC) to
U1(Normal Operation)

Connect regulator output 3.3V generated from
VCC_MCU to U1 (EH Operation)

Connect output from Stabilized Power Supply to
U1 (Normal Operation)

All open

DO NOT SET

-

Use external Reference Voltage for 14 bit A/D
Converter reference voltage

Use Reference Voltage Generation Circuit for 14
bit A/D Converter reference voltage

All open

DO NOT SET

-

Connect regulator 3.3V output (UC_VCC) to
U1(Normal Operation)

Connect regulator output 3.3V generated from
VCC_MCU to U1 (EH Operation)

Connect output from Stabilized Power Supply to
U1 (Normal Operation)

All open

DO NOT SET

-

Connect regulator 3.3V output (UC_VCC) to
U1(Normal Operation)

Connect regulator output 3.3V generated from
VCC_MCU to U1 (EH Operation)

Connect output from Stabilized Power Supply to
U1 (Normal Operation)

All open

Connect output from Arduino UNO shield to U1

U1, J15, J6

Connect regulator 3.3V output (UC_VCC) to
U1(Normal Operation)

Connect regulator output 3.3V generated from
Operation)

All open

DO NOT SET

-

Table 6-5 below details the function of the jumpers associated with the Power Supply Configuration.

Table 6-5: Power Supply Configuration Jumper Settings

J5

J12

J15

J16

Shorted Pin1-2

Shorted Pin2-3

All open

Shorted Pin1-2

Shorted Pin2-3

Shorted Pin1-2

Shorted Pin2-3

Shorted Pin1-2

Shorted Pin2-3

U1, J22

U1

U1

U1, J22

U1

U1, J22, J17

U1

U1, J22

U1

J17

J22

Shorted Pin1-2

Shorted Pin2-3

Shorted Pin1-2

Shorted Pin2-3

U1, J22, J15

U1, J15

U1

VCC_MCU to LP_PRODUCT_3V3, UC_VCC (EH

R20UT4379EJ0100 Rev. 1.00 Page 34 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 6. Configuration

Reference

Description

FIT

DNF

Related Ref.

Connect 32MHz crystal (X1) to RE01

R66, R74

-

Disconnect X1 to RE01

-

R66, R74

Connect 32.768kHzcrystal (X2) to RE01

R99,R104

-

Disconnect X2 to RE01

-

R99, R104

RE01

RE01 peripheral setting

Destination Selection

Pin

Por

ARDUINO­AN000

J21-P000

R255

R254

J21.25

-

-

ARDUINO­AN001

J21-P001

R152

R153

J21.24

-

-

ARDUINO­AN002

J21-P002

R257

R256

J21.23

-

-

ARDUINO­AN003

J21-P003

R150

R151

J21.22

-

-

ARDUINO­AN004

J21-P004

R259

R258

J21.21

-

-

ARDUINO­AN005

J21-P005

R148

R149

J21.20

-

-

RV1-ADC

R239

R238

RV1 - -

J21-P506

R238

R239

J21.3

UC_VCC

J16.Pin1-2

J16.Pin2-3

- - -

J17.Pin1-2,
J15.Pin1-2

J17.Pin2-3,
J15.Pin2-3

J17.Pin2-3,

J15.Pin1-2

J17.Pin1-2,

J15.Pin2-3

GROUND

J15.Pin2-3

J15.Pin1-2

C39 - -

6.5 Clock Configuration

Table 6-6 below details the function of the option links associated with Clock Configuration.

Table 6-6: Clock C on figuration Option Link Settings

XTAL, EXTAL

XCIN, XCOUT

U1.18, U1.19

U1.15, U1.16

6.6 Analog Power & ADC Configuration

Table 6-7 below details the function of the option links associated with Analog Power & ADC Configuration.

.

Table 6-7: Analog Power & ADC Configuration Option Link Settings

Signal

name

P000 136 P000

P001 135 P001

P002 133 P002

P003 132 P003

t

Signal Fit DNF Interface/Function Fit DNF

R254 R255 J19.1 - -

R153 R152 J19.2 - -

R256 R257 J19.3 - -

R151 R150 J19.4 - -

P004 131 P004

P005 130 P005

P506 109 P506

AVCC0-1 124,138 -

VREFH0 137 -

R258 R259 J19.5 - -

R149 R148 J19.6 - -

AVCC0 J16.Pin2-3 J16.Pin1-2 T13 - -

UC_VCC

VREFH0

- - -

T15 - -

R20UT4379EJ0100 Rev. 1.00 Page 35 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 6. Configuration

Reference

Jumper position

Description

Related Ref.

Use external Reference Voltage for 14 bit A/D
Converter reference voltage

Use Reference Voltage Generation Circuit for 14
bit A/D Converter reference voltage

All open

DO NOT SET

-

Connect regulator output 3.3V to U1 (Normal

Operation)

Connect regulator output 3.3V generated from
VCC_MCU to U1 (EH Operation)

Connect output from Stabilized Power Supply to
U1 (Normal Operation)

All open

DO NOT SET

-

Connect regulator output 3.3V to U1 (Normal

Operation)

Connect regulator output 3.3V generated from
VCC_MCU to U1 (EH Operation)

Connect output from Stabilized Power Supply to
U1 (Normal Operation)

All open

Connect output from Arduino UNO shield to U1

U1, J15, J6

Table 6-8 below details the function of the jumpers associated with Analog Power & ADC Configuration.

Table 6-8: Analog Power & ADC Configuration Jumper Settings

J15

J16

J17

Shorted Pin1-2

Shorted Pin2-3

Shorted Pin1-2

Shorted Pin2-3

Shorted Pin1-2

Shorted Pin2-3

U1, J22, J17

U1

U1, J22

U1

U1, J22, J15

U1, J15

R20UT4379EJ0100 Rev. 1.00 Page 36 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 6. Configuration

RE01

RE01 Peripheral Setting

Destination Selection

Por

Interface/

Function

LED0

R145

R144

LED0.K

R170

-

J21-P009

R144

R145

J21.16

-

-

LED1

R262

R263

LED1.K

R171

-

J21-P008

R263

R262

J21.17

-

-

LED2

R147

R146

LED2.K

R172

-

J21-P007

R146

R147

J21.18

-

-

RE01

RE01 Peripheral Setting

Destination Selection

Port

Interface/

Function

SW1

R249

R247, R245

SW1

-

-

MLCD_SI7

R247

R249, R245

CN3.6

R94 - J7-P100

R245

R249, R247

J7.25

-

-

SW2

R251

R250

SW2

-

-

J7-P508

R250

R251

J7.33

-

-

SW3

R207

R210

SW3

-

-

J9-P410

R210

R207

J9.15

-

-

SW6.Pin2­3

SW6.Pin1­2

SW-RESn

- - RES(Switch)

-

-

R61,

-2

ARDUINO-RESn

- - J10.3

- - J9-RESn

- - J9.23

-

-

6.7 General IO & LED Configuration

Table 6-9 below details the function of the option links associated with General IO & LED Configuration.

Table 6-9: General IO & LED Configuration Option Links

Signal

name

P009 125 P009

P008 126 P008

P007 127 P007

Pin

t

Signal Fit DNF

Fit DNF

6.8 IRQ & Switch Configuration

Table 6-10 below details the function of the option links assoc iated with IRQ & Switch Configuration.

Table 6-10: IRQ & Switch Configuration Option Links

Signal

name

Pin

Signal Fit DNF

Fit DNF

P100 99 P100

P508 107 P508
P410 23 P410

RESn 34 -

I-jet MIPI-RESn - - CN2.10

RX621-RESn - - U7.93

SW6.Pin1

SW6.Pin2­3

R20UT4379EJ0100 Rev. 1.00 Page 37 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 6. Configuration

RE01

RE01 Peripheral Setting

Destination Selection

Pin

Interface/

Function

PMOD1-IO1

R226

R229

PMOD1.10

R37

-

J8-P303

R229

R226

J8.23

-

-

PMOD1-IO0

R113

R116

PMOD1.9

R42

-

J8-P302

R116

R113

J8.24

-

-

PMOD1-SSLB0_B

R187

R186

PMOD1.1

R59

-

J7-P610

R186

R187

J7.1 - -

PMOD1-MOSIB_B

R33

R36

PMOD1.2

R51

-

J7-P609

R36

R33

J7.2 - -

PMOD1-MISOB_B

R191

R194

PMOD1.3

R45

-

J7-P608

R194

R191

J7.3 - -

PMOD1­RSPCKB_B

J7-P607

R43

R40

J7.4 - -

PMOD1-INT

R198

R202

PMOD1.7

R55

-

J7-P606

R202

R198

J7.5 - -

PMOD1-RESET

R46

R50

PMOD1.8

R47

-

J7-P605

R50

R46

J7.6 - -

RE01

RE01 Peripheral Setting

Destination Selection

Pin

Port

Interface/

Function

PMOD2-IO3

R232

R235

PMOD2.10

R174

-

J8-P306

R235

R232

J8.20

-

-

PMOD2-IO2

R205

R208

PMOD2.9

R175

-

J7-P604

R208

R205

J7.7 - -

PMOD2­IO1_QIO3_A

J8-P300

R120

R123

J8.26

-

-

QSPI-QIO3_A

R139

R138, R140

U6.7, R20

-

-

PMOD2­IO1_QIO3_A

J21-P013

R140

R139, R138

J21.12

-

-

PMOD2­IO0_QIO2_A

J7-P603

R60

R56

J7.8 - -

QSPI-QIO2_A

R272

R271, R270

U6.3, R13

-

-

PMOD2­IO0_QIO2_A

J21-P014

R270

R272, R271

J21.11

-

-

PMOD2­CLK_A

ARDUINO­RSPCKA_B

J21-P011

R141

R142, R143

J21.14

-

-

6.9 PMOD1 (MIP-LCD Expansion Board) Configuration

Table 6-11 below details the function of the option links associated with PMOD1 (MIP-LCD Expansi on Board)

Configuration.
.

Table 6-11: PMOD1 (MIP-LCD Expansion Board) Configuration Option Links

Signal

name

P303 69 P303

P302 70 P302

P610 73 P610

P609 74 P609

P608 75 P608

Port

Signal Fit DNF

Fit DNF

P607 76 P607

P606 77 P606

P605 78 P605

R40 R43 PMOD1.4 R39 -

6.10 PMOD2 Configuration

Table 6-12,Table 6-13 below details the function of the option links associated with PMOD2 configuration.

Table 6-12: PMOD2 Configuration Option Links (1)

Signal

name

P306 64 P306

P604 79 P604

P300 72 P300

P013 120 P013

Signal Fit DNF

R123 R120 PMOD2.8 R178 -

R138 R139, R140 PMOD2.8 R178 -

Fit DNF

P603 80 P603

P014 119 P014

P011 122 P011

R20UT4379EJ0100 Rev. 1.00 Page 38 of 58
Jun 26, 2019

RSPCKA_B_QSP

R56 R60 PMOD2.7 R180 -

R271 R272, R270 PMOD2.7 R180 -

R142 R143, R141 PMOD2.4 R176 -

R143 R142, R141 J6.6 - -

Evaluation Kit RE01 1500KB 6. Configuration

RE01

RE01 Peripheral Setting

Destination Selection

Port

Interface/

Function

QSPI-QSPCLK_A

R217

R215, R211

U6.6, R14

-

-

PMOD2­CLK_A

J7-P602

R211

R217, R215

J7.9 - -

QSPI-QIO1_A

R135

R136, R137

U6.2, R18

-

-

PMOD2­J21-P015

R137

R135, R136

J21.10

-

-

R275, R276,
R277, R273

PMOD2-

PMOD2­ARDUINO­MISOA_B

R274, R275,

R276, R273

R274, R275,

R276, R277

PMOD2-

ARDUINO­MOSIA_B

J21-P010

R266

R264, R265

J21.15

-

-

PMOD2-

ARDUINO­SSLA0_B

J21-P012

R269

R268, R267

J21.13

-

-

QSPI-QSSL_A

R68

R73, R62

U6.1, R24

-

PMOD2­J7-P601

R62

R68, R73

J7.10

-

-

Table 6-13: PMOD2 Configuration Option Links (2)

Signal

name

Pin

Signal Fit DNF

Fit DNF

P602 81 P602

P015 118 P015

P500 115 P500

P010 123 P010

P012 121 P012

RSPCKA_B_QSP

MISOA_B_QIO1_A R136 R135, R137 PMOD2.3 R177 -

QSPI-QIO0_A R274

MOSIA_B_QIO0_A R275

MISOA_B_QIO1_A R276

J21-P500 R273

MOSIA_B_QIO0_A R264 R265, R266 PMOD2.2 R179

SSLA0_B_QSSL_A R268 R267, R269 PMOD2.1, R182 R181

R215 R217, R211 PMOD2.4 R176 -

U6.5, R12 - -

R274, R276,

R277, R273

R274, R275,

R277, R273

R277

R265 R264, R266 J6.4 - -

R267 R268, R269 J6.3 - -

PMOD2.2 R179

PMOD2.3 R177 -

J6.5 - -

J21.9 - -

P601 82 P601

R20UT4379EJ0100 Rev. 1.00 Page 39 of 58
Jun 26, 2019

SSLA0_B_QSSL_A R73 R68, R62 PMOD2.1, R182 R181

Evaluation Kit RE01 1500KB 6. Configuration

RE01

RE01 Peripheral Setting

Destination Selection

Interface/

Function

QSPI-QSPCLK_A

R217

R215, R211

U6.6, R14

-

-

PMOD2­CLK_A

J7-P602

R211

R217, R215

J7.9 - -

QSPI-QSSL_A

R68

R73, R62

U6.1, R24

-

PMOD2­J7-P601

R62

R68, R73

J7.10

-

-

QSPI-QIO3_A

R139

R138, R140

U6.7, R20

-

-

PMOD2­IO1_QIO3_A

J21-P013

R140

R139, R138

J21.12

-

-

QSPI-QIO2_A

R272

R271, R270

U6.3, R13

-

-

PMOD2­IO0_QIO2_A

J21-P014

R270

R272, R271

J21.11

-

-

QSPI-QIO1_A

R135

R136, R137

U6.2, R18

-

-

PMOD2­J21-P015

R137

R135, R136

J21.10

-

-

R275, R276,
R277, R273

PMOD2-

PMOD2­ARDUINO­MISOA_B

R274, R275,

R276, R273

R274, R275,

R276, R277

6.11 QSPI Configuration

Table 6-14 be low det ails the function of the option links associated with QSPI configuration.

Table 6-14: QSPI Configuration Option Links

Signal

name

Pin

Port

Signal Fit DNF

Fit DNF

P602 81 P602

P601 82 P601

P013 120 P013

P014 119 P014

P015 118 P015

P500 115 P500

RSPCKA_B_QSP

SSLA0_B_QSSL_A R73 R68, R62 PMOD2.1 R181

MISOA_B_QIO1_A R136 R135, R137 PMOD2.3 R177 -

QSPI-QIO0_A R274

MOSIA_B_QIO0_A R275

MISOA_B_QIO1_A R276

R215 R217, R211 PMOD2.4 R176 -

R138 R139, R140 PMOD2.8 R178 -

R271 R272, R270 PMOD2.7 R180 -

U6.5, R12 - -

R274, R276,

R277, R273

R274, R275,

R277, R273

PMOD2.2 R179

PMOD2.3 R177 -

R20UT4379EJ0100 Rev. 1.00 Page 40 of 58
Jun 26, 2019

R277

J21-P500 R273

J6.5 - -

J21.9 - -

Evaluation Kit RE01 1500KB 6. Configuration

RE01

RE01 Peripheral Setting

Destination Selection

Port

Interface/

Function

USB SERIAL­RXD

J21-P813

R154

R155

J21.28

-

-

SW6.Pi
n5-6

SW6.Pin4

-5

R7,
4-5

USB SERIAL­RXD

J9-P207

R197

R190, R193

J9.22

-

-

USB SERIAL­TXD

J21-P812

R283

R282

J21.29

-

-

SW6.Pi
n8-9

SW6.Pin7

-8

R6,
7-8

USB SERIAL­TXD

J9-P411

R115

R112, R119

J9.14

-

-

USB SERIAL­CTS

J21-P814

R253

R252

J21.27

-

-

USB SERIAL­RTS

J21-P811

R156

R157

J21.30

-

-

6.12 USB Serial Configuration

Table 6-15 below details the function of the option links associated with USB Serial Configuration.

.

Table 6-15: USB Serial Configuration Option Links

Signal

name

Pin

Signal Fit DNF

Fit DNF

P813 142 P813

P207

P812 143 P812

P411 22 P411

P814 141 P814

P811 144 P811

33 P207

R155 R154 U9.15 - -

SWDIO R190 R193, R197 CN2.2

SWDIO R190 R193, R197 U7.28

R193 R190, R197 U9.15 - -

R282 R283 U9.2 - -

SWCLK R112 R115, R119 CN2.4

SWCLK R112 R115, R119 U7.30

R119 R112, R115 U9.2 - -

R252 R253 U9.16 - -

R157 R156 U9.4 - -

SW6.Pin

SW6.Pin

SW6.Pin5­6

SW6.Pin8­9

R20UT4379EJ0100 Rev. 1.00 Page 41 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 6. Configuration

RE01

RE01 Peripheral Setting

Destination Selection

Pin

Interface/

Function

CN3.1, CN3.19,
R65

R63,
R64 - J7-P113

R80

R76

J7.12

-

-

MLCD_ENBS

R96

R92

CN3.4, R98

R97 - J7-P109

R92

R96

J7.16

-

-

MLCD_XRST

R213

R216

CN3.5, R107

R106

-

J7-P112

R216

R213

J7.13

-

-

SW1

R249

R247, R245

SW1

- - MLCD_SI7

R247

R249, R245

CN3.6

R94 - J7-P100

R245

R249, R247

J7.25

-

-

MLCD_SI6

R124

R121

CN3.7

R102

-

J7-P101

R121

R124

J7.24

-

-

MLCD_SI5

R243

R242

CN3.8

R93

-

J7-P102

R242

R243

J7.23

-

-

MLCD_SI4

R117

R114

CN3.9

R101

-

J7-P103

R114

R117

J7.22

-

-

MLCD_SI3

R240

R236

CN3.10

R90

-

J7-P104

R236

R240

J7.21

-

-

MLCD_SI2

R109

R111

CN3.11

R78

-

J7-P105

R111

R109

J7.20

-

-

MLCD_SI1

R233

R230

CN3.12

R89 - J7-P106

R230

R233

J7.19

-

-

MLCD_SI0

R100

R105

CN3.13

R77

-

J7-P107

R105

R100

J7.18

-

-

MLCD_DEN

R218

R219

CN3.14, R86

R85

-

J7-P110

R219

R218

J7.15

-

-

MLCD_SCLK

R84

R88

CN3.15, R71

R70 - J7-P111

R88

R84

J7.14

-

-

MLCD_ENBG

R227

R224

CN3.16, R82

R81 - J7-P108

R224

R227

J7.17

-

-

RE01

RE01 Peripheral Setting

Destination Selection

Interface/

Function

Sensor1.1,

R199

ARDUINO­SCL1

J8-P701

R209

R206, R203

J8.9 - -

Sensor1.3,

R87

ARDUINO­SDA1

J8-P700

R75

R83, R79

J8.10

-

-

6.13 MLCD Configuration

Table 6-16 below details the function of the opt ion links associated with MLCD Configuration.

Table 6-16: MLCD Configuration Option Links

Signal

name

P113 84 P113

P109 88 P109

P112 85 P112

P100 99 P100

P101 98 P101

P102 97 P102

P103 96 P103

Port

Signal Fit DNF

MLCD_VCOM R76 R80

Fit DNF

P104 95 P104

P105 94 P105

P106 93 P106

P107 92 P107

P110 87 P110

P111 86 P111

P108 89 P108

6.14 Sensor Board Configuration

Table 6-17 below details the function of the option links associated with Sensor Board Configuration.

Table 6-17: Sensor Board Configuration Option Links

Signal

name

P701 53 P701

Pin

Port

Signal Fit DNF

RIIC-SCL1 R206 R203, R209

R203 R206, R209 J6.10 - -

Sensor1.2,

Fit DNF

- -

P700 54 P700

R20UT4379EJ0100 Rev. 1.00 Page 42 of 58
Jun 26, 2019

RIIC-SDA1 R83 R79, R75

R79 R83, R75 J6.9 - -

Sensor1.4,

- -

Evaluation Kit RE01 1500KB 6. Configuration

RE01

RE01 Peripheral Setting

Destination Selection

Pin

Port

Interface/

Function

USB_VBUSE
N_B

J21-P504

R280

R281

J21.5

-

-

USB_OVRCU
RB_B

J7-P509

R129

R128

J7.32

-

-

R189,

R21

J8-P204

R188

R189

J8.3 - -

USB_1.3,
USB_2.3

USB_1.2,
USB_2.2

Reference

Position Jumper

Description

Related Ref.

Shorted Pin1-2

USB Host mode

-

Shorted Pin2-3

USB Function mode

J3

All open

DO NOT SET

-

Shorted Pin1-2

Bus-powered

Shorted Pin2-3

Self-powered

All open

Self-powered (because R15 is fitted)

6.15 USB Configuration

Table 6-18 below details the function of the opt ion li nks associated with USB Configuration.

Table 6-18: USB Configuration Option Links

Signal

name

Signal Fit DNF

Fit DNF

P504 111 P504

P509 106 P509

P204 47 P204

USB_DP 44 USB_DP USB_DP R26, L3
USB_DM 43 USB_DM USB_DM R27, L3

USB_VBUS

R281 R280 U8.4, R185 - -

R128 R129 U8.5, R183 - -

J3.Pin1-2 or

R15, R16,

R188

USB_1.1,
USB_2.1

Table 6-19 below details the function of the jumpers associated with USB Configuration.

Table 6-19: USB Configuration Jumper Option Links

J2

J3(DNF)*1

*1

: In case of fit J3, remov e R15

J2.Pin2­3, R11

or L2

- -

- -

J2, R15

-

R20UT4379EJ0100 Rev. 1.00 Page 43 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 6. Configuration

RE01

RE01 Peripheral Setting

Destination Selection

Port

Interface/

Function

SW6.Pin
2-3

SW6.Pi
n1-2

SW-RESn

- - RES(Switch)

-

-

R61,
n1-2

ARDUINO-RESn

- - J10.3

- - J9-RESn

- - J9.23

-

-

ARDUINO-AN000

R254

R255

J19.1

-

-

J21-P000

R255

R254

J21.25

-

-

ARDUINO-AN001

R153

R152

J19.2

-

-

J21-P001

R152

R153

J21.24

-

-

ARDUINO-AN002

R256

R257

J19.3

- - J21-P002

R257

R256

J21.23

-

-

ARDUINO-AN003

R151

R150

J19.4

-

-

J21-P003

R150

R151

J21.22

-

-

ARDUINO-AN004

R258

R259

J19.5

-

-

J21-P004

R259

R258

J21.21

-

-

ARDUINO-AN005

R149

R148

J19.6

- - J21-P005

R148

R149

J21.20

-

-

Sensor1.1,

R199

ARDUINO-SCL1

R203

R206, R209

J6.10

- - J8-P701

R209

R206, R203

J8.9 - -

Sensor1.3,

R87

ARDUINO-SDA1

R79

R83, R75

J6.9

-

-

J8-P700

R75

R83, R79

J8.10

-

-

J15.Pin1-2,

R126

PMOD2­LK_A

ARDUINO­RSPCKA_B

J21-P011

R141

R142, R143

J21.14

-

-

R275, R276,
R277, R273

PMOD2­MOSIA_B_QIO0_A

R274, R276,

R277, R273

PMOD2­MISOA_B_QIO1_A

R274, R275,

R277, R273

ARDUINO­MISOA_B

R274, R275,

R276, R273

R274, R275,

R276, R277

PMOD2­MOSIA_B_QIO0_A

ARDUINO­MOSIA_B

J21-P010

R266

R264, R265

J21.15

-

-

6.16 Arduino UNO Configuration

Table 6-20, Table 6-21 below details the function of the option links associated with Arduino UNO

Configuration.

Table 6-20: Arduino UNO Configuration Option Links (1)

Signal

name

Pin

Signal Fit DNF

I-jet MIPI-RESn - - CN2.10

Fit DNF

RESn 34 RES#

P000 136 P000

P001 135 P001

P002 133 P002

P003 132 P003

P004 131 P004

P005 130 P005

P701 53 P701

P700 54 P700

RX621-RESn - - U7.93

RIIC-SCL1 R206 R203, R209

RIIC-SDA1 R83 R79, R75

Sensor1.2,

Sensor1.4,

SW6.Pi

- -

- -

SW6.Pi
n2-3

VREFH0 137 VREFH0 VREFH0

P011 122 P011

P500 115 P500

P010 123 P010

R20UT4379EJ0100 Rev. 1.00 Page 44 of 58
Jun 26, 2019

RSPCKA_B_QSPC

QSPI-QIO0_A R274

J21-P500 R273

R142 R143, R141 PMOD2.4 R176 -

R143 R142, R141 J6.6 - -

R275
R276
R277

R264 R265, R266 PMOD2.2 R179

R265 R264, R266 J6.4 - -

- J6.8

U6.5, R12 - ­PMOD2.2 R179
PMOD2.3 R177 ­J6.5 - -

J21.9 - -

Evaluation Kit RE01 1500KB 6. Configuration

RE01

RE01 Peripheral Setting

Destination Selection

Port

Interface/

Function

PMOD2-

ARDUINO­SSLA0_B

J21-P012

R269

R268, R267

J21.13

-

-

ARDUINO-IO7

R195

R192

J6.2

-

-

J8-P202

R192

R195

J8.5

-

-

ARDUINO-IO6

R72

R67

J6.1

- - J8-P702

R67

R72

J8.8 - -

ARDUINO-IO5

R220

R222

J18.8

-

-

J8-P305

R222

R220

J8.21

-

-

ARDUINO-IO4

R108

R110

J18.7

-

-

J8-P304

R110

R108

J8.22

-

-

ARDUINO-IO3

R201

R204

J18.6

- - J9-P409

R204

R201

J9.16

-

-

ARDUINO-IO2

R225

R228

J18.5

-

-

J9-P806

R228

R225

J9.7 - -

ARDUINO-IO1

R231

R234

J18.4

-

-

J9-P807

R234

R231

J9.6

-

-

ARDUINO-IO0

R237

R241

J18.3

- - J9-P808

R241

R237

J9.5 - -

ARDUINO-TXD5-B

R214

R212

J18.2

-

-

J9-P315

R212

R214

J8.11

-

-

ARDUINO-RXD5-B

R91

R95

J18.1

-

-

J8-P314

R95

R91

J8.12

-

-

Table 6-21: Arduino UNO Configuration Option Links (2)

Signal
name

P012 121 P012

P202 49 P202

P702 52 P702

P305 65 P305

P304 68 P304

P409 24 P409

P806 7 P806

Pin

Signal Fit DNF

SSLA0_B_QSSL_A R268 R267, R269 PMOD2.1, R182 R181

R267 R268, R269 J6.3 - -

Fit DNF

P807 6 P807

P808 5 P808

P315 55 P315

P314 56 P314

R20UT4379EJ0100 Rev. 1.00 Page 45 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 6. Configuration

Reference

Position Jumper

Description

Related Ref.

Shorted Pin1-2

Use an external battery. (EH Operation)

U1, U3, U10

Shorted Pin2-3

Use a supercapacitor. (EH Operation)

U1, U3, U10

ALL open

DO NOT SET

-

Connect regulator 3.3V output (UC_VCC)
U1(Normal Operation)

Connect output from Stabilized Power Supply to
U1 (Normal Operation)

Connect output voltage from U1 (VCC_MCU) to
regulator (EH Operation)

Connect regulator 3.3V output (UC_VCC)
U1(Normal Operation)

Connect regulator output 3.3V generated from
VCC_MCU to U1 (EH Operation)

Connect output from Stabilized Power Supply to
U1 (Normal Operation)

All open

DO NOT SET

-

Use external Reference Voltage for 14 bit A/D
Converter reference voltage

Use Reference Voltage Generation Circuit for 14
bit A/D Converter reference voltage

All open

DO NOT SET

-

Connect regulator 3.3V output (UC_VCC)
U1(Normal Operation)

Connect regulator output 3.3V generated from
VCC_MCU to U1 (EH Operation)

Connect output from Stabilized Power Supply to
U1 (Normal Operation)

All open

DO NOT SET

-

Connect regulator 3.3V output (UC_VCC)
U1(Normal Operation)

Connect regulator output 3.3V generated from
VCC_MCU to U1 (EH Operation)

Connect output from Stabilized Power Supply to
U1 (Normal Operation)

All open

Connect output from Arduino UNO shield to U1

U1, J15, J6

Connect regulator 3.3V output (UC_VCC)
U1(Normal Operation)

Connect regulator output 3.3V generated from
Operation)

All open

DO NOT SET

-

Supply the output voltage(VCC_MCU) from
Operation)

Supply the voltage from Supercapacitor or External
Operation)

All open

DO NOT SET

6.17 Energy Harvesting Configuration

Table 6-22 ,Table 6-23 below details the function of the option links associated with Energy Harvesting

Configuration.

Table 6-22: Energy Harvesting Configuration Jumper Option Links (1)

J1

J5

J12

J15

J16

Shorted Pin1-2

Shorted Pin2-3

All open

Shorted Pin1-2

Shorted Pin2-3

Shorted Pin1-2

Shorted Pin2-3

Shorted Pin1-2

Shorted Pin2-3

generated from external power supply to

generated from external power supply to

generated from external power supply to

U1, J22

U1

U1

U1, J22

U1

U1, J22, J17

U1

U1, J22

U1

Shorted Pin1-2

J17

Shorted Pin2-3

Shorted Pin1-2

J22

Shorted Pin2-3

Shorted Pin1-2

J23

Shorted Pin2-3

R20UT4379EJ0100 Rev. 1.00 Page 46 of 58
Jun 26, 2019

generated from external power supply to

U1, J22, J15

U1, J15

generated from external power supply to

U1

VCC_MCU to LP_PRODUCT_3V3, UC_VCC (EH

RE01 to the regulator and generate 3.3V(EH

U1

Battery to the regulator and generate 3.3V(EH

Evaluation Kit RE01 1500KB 6. Configuration

Reference

Position Jumper

Description

Related Ref.

Shorted Pin1-2,Pin4­5,Pin7-8

Setting of port VCC_SU, VBAT_EHC, VSC_VCC

when EHC disable (Normal Operation)

Shorted Pin2-3,Pin5­6,Pin8-9

Setting of port VCC_SU, VBAT_EHC, VSC_VCC
when EHC enable (EH Operation)

Shorted Pin1-2,Pin4­5,Pin7-8

Enable SWCLK, SWDIO, and RESn (RX621
output) pins (normal operation)

Shorted Pin2-3,Pin5­6,Pin8-9

Disable SWCLK, SWDIO and RESn (RX621
output) pins (EH Operation)

Table 6-23: Energy Harvesting Configuration Jumper Option Links (2)

SW5

SW6

U1

U1, U7

R20UT4379EJ0100 Rev. 1.00 Page 47 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 6. Configuration

Reference

Position Jumper

Description

Related Ref.

Shorted Pin1-2

Set when excluding current measur e ment .

ALL open

Current measurement (Connect ammeter)

6.18 Current Measurement Configuration

Table 6-24 below details the function of the jumpers associated with Current Measurement Configuration.

Table 6-24: Current Measurement Configuration Jumper Option Links

J20

U1, R158

R20UT4379EJ0100 Rev. 1.00 Page 48 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 7. Headers

RE01 Header J9

Function (General IO

port/Power)

Function (General IO

port/Power)

Circuit Net Name

Circuit Net Name

3.3V

5.0V

Board_3V3

Board_5V

P810

P809

J9-P810

J9-P809

P808

P807

J9-P808

J9-P807

P806

P805

J9-P806

J9-P805

P804

P803

J9-P804

J9-P803

P802

P801

J9-P802

J9-P801

P800

P411

J9-P800

J9-P411

P410

P409

J9-P410

J9-P409

P408

P407

J9-P408

J9-P407

P406

P405

J9-P406

J9-P405

P404

P207

J9-P404

J9-P207

RES#

P200

J9-RESn

J9-P200

Reserved

P205

NC

J9-P205

Reserved

Reserved

NC

NC

Reserved

Reserved

NC

NC

Reserved

Reserved

NC

NC

Reserved

Reserved

NC

NC

GND

GND

GROUND

GROUND

7. Headers

7.1 RE01 Headers

This Main Board is fitted with RE01 headers, which can be used to observe general IO port.

Table 7-1 below lists the connections of the RE01 header, J9.

Table 7-1: RE01 Header J9 Connections

Pin

1

3

5

7

9

11

13

15

17

19

21

RE01 Pin Pin

- 2

1 4

5 6

7 8

9 10

11 12

13 14

23 16

25 18

27 20

29 22

RE01 Pin

-

4

6

8

10

12

22

24

26

28

33

23

25

27

29

31

33

35

34 24

NC 26

NC 28

NC 30

NC 31

NC 34

- 36

36

46

NC

NC

NC

NC

-

R20UT4379EJ0100 Rev. 1.00 Page 49 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 7. Headers

RE01 Header J7

Function (General IO

port/Power)

Function (General IO

port/Power)

Circuit Net Name

Circuit Net Name

P610

P609

J7-P610

J7-P609

P608

P607

J7-P608

J7-P607

P606

P605

J7-P606

J7-P605

P604

P603

J7-P604

J7-P603

P602

P601

J7-P602

J7-P601

P600

P113

J7-P600

J7-P113

P112

P111

J7-P112

J7-P111

P110

P109

J7-P110

J7-P109

P108

P107

J7-P108

J7-P107

P106

P105

J7-P106

J7-P105

P104

P103

J7-P104

J7-P103

P102

P101

J7-P102

J7-P101

P100

Reserved

J7-P100

NC

P514

P513

J7-P514*1

J7-P513*1

P512

P511

J7-P512*1

J7-P511

P510

P509

J7-P510

J7-P509

P508

P507

J7-P508

J7-P507

GND

GND

GROUND

GROUND

Table 7-2 below lists the connections of the RE01 header, J7.

Table 7-2: RE01 Header J7 Connections

Pin

1

3

5

7

9

11

13

15

17

19

21

RE01 Pin Pin

73 2

75 4

77 6

79 8

81 10

83 12

85 14

87 16

89 18

93 20

95 22

RE01 Pin

74

76

78

80

82

84

86

88

92

94

96

23

25

27

29

31

33

35

97 24

99 26

101 28

103 30

105 31

107 34

- 36

*1: When using as an output port, attach a pull-up resistor.

98

100

102

104

106

108

-

R20UT4379EJ0100 Rev. 1.00 Page 50 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 7. Headers

RE01 Header J8

Function (General IO

port/Power)

Function (General IO

port/Power)

Circuit Net Name

Circuit Net Name

3.3V

5.0V

Board_3V3

Board_5V

P204

P203

J8-P204

J8-P203

P202

P704

J8-P202

J8-P704

P703

P702

J8-P703

J8-P702

P701

P700

J8-P701

J8-P700

P315

P314

J8-P315

J8-P314

P313

P312

J8-P313

J8-P312

P311

P310

J8-P311

J8-P310

P309

P308

J8-P309

J8-P308

P307

P306

J8-P307

J8-P306

P305

P304

J8-P305

J8-P304

P303

P302

J8-P303

J8-P302

P301

P300

J8-P301

J8-P300

Reserved

Reserved

NC

NC

Reserved

Reserved

NC

NC

Reserved

Reserved

NC

NC

Reserved

Reserved

NC

NC

GND

GND

GROUND

GROUND

Table 7-3 below lists the connections of the RE01 header, J8.

Table 7-3: RE01 Header J 8 Connections

Pin

1

3

5

7

9

11

13

15

17

19

21

RE01 Pin Pin

- 2

47 4

49 6

51 8

53 10

55 12

57 14

59 16

61 18

63 20

65 22

RE01 Pin

-

48

50

52

54

56

58

60

62

64

68

23

25

27

29

31

33

35

69 24

71 26

NC 28

NC 30

NC 31

NC 34

- 36

70

72

NC

NC

NC

NC

-

R20UT4379EJ0100 Rev. 1.00 Page 51 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 7. Headers

RE01 Header J21

Function (General IO

port/Power)

Function (General IO

port/Power)

Circuit Net Name

Circuit Net Name

3.3V

5.0V

Board_3V3

Board_5V

P506

P505

J21-P506

J21-P505

P504

P503

J21-P504

J21-P503

P502

P501

J21-P502

J21-P501

P500

P015

J21-P500

J21-P015

P014

P013

J21-P014

J21-P013

P012

P011

J21-P012

J21-P011

P010

P009

J21-P010

J21-P009

P008

P007

J21-P008

J21-P007

P006

P005

J21-P006

J21-P005

P004

P003

J21-P004

J21-P003

P002

P001

J21-P002

J21-P001

P000

P815

J21-P000

J21-P815

P814

P813

J21-P814

J21-P813

P812

P811

J21-P812

J21-P811

Reserved

Reserved

NC

NC

Reserved

Reserved

NC

NC

GND

GND

GROUND

GROUND

Table 7-4 below lists the connections of the RE01 header, J21.

Table 7-4: RE01 Header J21 Connections

Pin

1

3

5

7

9

11

13

15

17

19

21

RE01 Pin Pin

- 2

109 4

111 6

113 8

115 10

119 12

121 14

123 16

126 18

129 20

131 22

RE01 Pin

-

110

112

114

118

120

122

125

127

130

132

23

25

27

29

31

33

35

133 24

136 26

141 28

143 30

NC 31

NC 34

- 36

135

140

142

144

NC

NC

-

R20UT4379EJ0100 Rev. 1.00 Page 52 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 8. Code Development

Only ever change the RE01 operating mode whilst the Evaluation Kit is in reset or turned off ; otherwise the RE01 may
become damaged as a result.

8. Code Development

8.1 Overview

For all code debugging, software tools below can be used.

 Connect Main Board to PC through IAR development tool I-jet emulator
 Connect Main Board to PC through Segger development tool J-Link OB that is designed on Main Board
 Connect Main Board to PC through Segger development tool J-Link emulator
 Connect Main Board to PC through Renesas development tool E2 emulator and E2 emulator Lite.

For each emulator detail information, refer to each manufacturer's website .

8.2 Mode Support

The RE01 supports Sin gle Chip and Boot Modes (SCI and U SB), which are configured on the Evaluation Kit.
Details of the modific ations required can be found in §6.2. All other RE01 operating modes are con figured
within the RE01 registers, which are listed in the RE01 Group User’s Manual: Hardware.

8.3 Address Space

For the RE01 address space details, refer to the ’Address Space’ section of RE01 Group User’s Manual:
Hardware.

R20UT4379EJ0100 Rev. 1.00 Page 53 of 58
Jun 26, 2019

Evaluation Kit RE01 1500KB 9. Additional Information

9. Additional Information

Technical Support

For information about the RE01 refer to the RE01 Group User’s Manual: Hardware.

Trademarks

All brand or product names used in this man ual are trademarks or registered trademarks of the ir respective
companies or organisations.

Copyright

This document may be, who lly or par tially, subject to change without notice. All rights reserved. D uplicati on of
this document, either in whole or part is prohibited without the written permission of Renesas Electronics
Corporation.

© 2018 - 2019 Renesas Electronics Corporation. All rights reserved.

R20UT4379EJ0100 Rev. 1.00 Page 54 of 58
Jun 26, 2019

Description

Page

Summary

1.00

Jun 26, 2019

First Edition issued.

RE01 Group

REVISION HISTORY

Evaluation Kit RE01 1500KB User’s Manual

Rev. Date



C - 1

Published by: Renesas Electronics Corporation

RE01 Group
Evaluation Kit RE01 1500KB User’s Manual

Publication Date: Rev.1.00 Apr 26, 2019

SALES OFFICES

Refer to "http://www.renesas.com/" for the latest and detailed information.

Renesas Electronics Corporation

TOYOSU FORESIA, 3-2-24 Toyosu, Koto-ku, Tokyo 135-0061, Japan

Renesas Electronics America Inc.

1001 Murphy Ranch Road, Milpitas, CA 95035, U.S.A.
Tel: +1-408-432-8888, Fax: +1-408-434-5351

Renesas Electronics Canada Limited

9251 Yonge Street, Suite 8309 Richmond Hill, Ontario Canada L4C 9T3
Tel: +1-905-237-2004

Renesas Electronics Europe GmbH

Arcadiastrasse 10, 40472 Düsseldorf, Germany
Tel: +49-211-6503-0, Fax: +49-211-6503-1327

Renesas Electronics (China) Co., Ltd.

Room 101-T01, Floor 1, Building 7, Yard No. 7, 8th Street, Shangdi, Haidian District, Beijing 100085, China
Tel: +86-10-8235-1155, Fax: +86-10-8235-7679

Renesas Electronics (Shanghai) Co., Ltd.

Unit 301, Tower A, Central Towers, 555 Langao Road, Putuo District, Shanghai 200333, China
Tel: +86-21-2226-0888, Fax: +86-21-2226-0999

Renesas Electronics Hong Kong Limited

Unit 1601-1611, 16/F., Tower 2, Grand Century Place, 193 Prince Edward Road West, Mongkok, Kowloon, Hong Kong
Tel: +852-2265-6688, Fax: +852 2886-9022

Renesas Electronics Taiwan Co., Ltd.

13F, No. 363, Fu Shing North Road, Taipei 10543, Taiwan
Tel: +886-2-8175-9600, Fax: +886 2-8175-9670

Renesas Electronics Singapore Pte. Ltd.

80 Bendemeer Road, Unit #06-02 Hyflux Innovation Centre, Singapore 339949
Tel: +65-6213-0200, Fax: +65-6213-0300

Renesas Electronics Malaysia Sdn.Bhd.

Unit No 3A-1 Level 3A Tower 8 UOA Business Park, No 1 Jalan Pengaturcara U1/51A, Seksyen U1, 40150 Shah Alam, Selangor, Malaysia
Tel: +60-3-5022-1288, Fax: +60-3-5022-1290

Renesas Electronics India Pvt. Ltd.

No.777C, 100 Feet Road, HAL 2nd Stage, Indiranagar, Bangalore 560 038, India
Tel: +91-80-67208700

Renesas Electronics Korea Co., Ltd.

17F, KAMCO Yangjae Tower, 262, Gangnam-daero, Gangnam-gu, Seoul, 06265 Korea
Tel: +82-2-558-3737, Fax: +82-2-558-5338

© 2019 Renesas Electronics Corporation. All rights reserved.

http://www.renesas.com

Colophon 6.0

R20UT4379EJ0100

RE01 Group