TESSERA CF-850/F1K-144-S, CF-850/F1KM-176-S Hardware Manual

- 1 -

CF-850/F1K-144-S

Hardware Manual

Date published: Jan 2017 (1st Edition)

Tessera Technology Inc.

TS-TUM05471

- 2 -

CAUTION:

・ The information in this document is subject to change without notice.

・ No part of this document may be copied or reproduced in any form or by any means without

prior written consent of Tessera Technology Inc.

・ Tessera Technology Inc. assumes no responsibility for inaccuracies or misprints of this

document.

・ Tessera Technology Inc. does not assume any liability for infringement of patents,

copyrights or other intellectual property rights of third parties by or arising from the use of

Tessera Technology Inc. products listed in this document or any other liability arising from

the use of such products. No license, express, implied or otherwise, is granted under any

patents, copyrights or other intellectual property rights of Tessera Technology Inc. or

others.

・ Descriptions of circuits, software and other related information in this document are

provided for illustrative purposes in semiconductor product operation and application

examples. The incorporation of these circuits, software and information in the design of a

customer's equipment shall be done under the full responsibility of the customer. Tessera

Technology Inc. assumes no responsibility for any losses incurred by customers or third

parties arising from the use of these circuits, software and information.

- 3 -

TABLE OF CONTENTS

1 INTRODUCTION ................................................................................................................. 4

2 FEATURES........................................................................................................................... 5

2.1 CAN ..................................................................................................................................... 6

2.2 SERIAL SELECT ....................................................................................................................... 9

2.2.1 LCD ........................................................................................................................... 11

2.2.2 RS-232C .................................................................................................................... 14

2.2.3 USB Serial Conversion ............................................................................................ 15

2.2.4 LIN ............................................................................................................................ 16

2.3 PUSH SWITCH ....................................................................................................................... 17

2.4 VOLUME ............................................................................................................................... 18

2.5 POWER ................................................................................................................................ 19

2.6 CPU BOARD ........................................................................................................................ 20

2.6.1 Power ........................................................................................................................ 21

2.6.2 CPU ........................................................................................................................... 21

2.6.3 Clock ......................................................................................................................... 22

2.6.4 Reset ......................................................................................................................... 22

2.6.5 Switch & LED ......................................................................................................... 23

2.6.6 Debug Connector ...................................................................................................... 24

2.6.7 Filter socket .............................................................................................................. 25

2.6.8 Check Pin ................................................................................................................. 25

3 CPU TERMINAL CONNECTION LIST ............................................................................. 26

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1 Introduction

In this document, features and hardware specifications of CF-850/F1K-144-S, which the 32-bit
single-chip microcomputer RH850/F1K and RH850/F1L from Renesas Electronics Corporation is
mounted, are described.

- 5 -

2 Features

Volume

Power

RS-232C

USB

CPU Board

Push Switch

Serial select

CAN

LCD

LIN

CAN x 7ch

- 6 -

2.1 CAN

The CAN controller of the microcomputer is connected to the CAN FD transceiver

(TJA1044GT). It supports CAN physical layer. Also, CAN bus signal is connected to DSUB 9pin

female connector.

One terminal can be selected by using jumpers from maximum of three multipurpose terminals, and

can be connected to CAN transceiver.

Only one line must be shorted in each jumper.

CAN 0

CAN 1

CAN 2

CAN 3

CAN 4

CAN 5

CAN 6

JP5 (終端抵抗)

JP4 (MODE)

JP6 (TX)

JP7 (RX)

- 7 -

Connecter

P10_1/TAUD0I3 /TAUD0O3 /CA N 0 TX/PWGA1O/TAPA0UN/CSIH1SC/MODE0 1-2

P0_0/TAUD0I2/ TAUD0O2/ RLIN20RX/CA N 0 TX/PWGA10O/CSIH0SSI/DPO 3-4

5-6

P10_0/TAUD0I1 /TAUD0O1 /CA N 0 RX /INTP0/CSCXFOUT/PWGA0O/TAPA0UP/CSIH1SI 1-2

P0_1/TAUD0I4/ TAUD0O4/ C A N 0 R X/INTP0/RLIN20 TX/PWGA11O/CSIH0SI/APO 3-4

5-6

P9 _ 1 / INTP11/PWGA9O/ TAUD0I2/TAUD0O2/KR0I5/CSIH2CSS1 /ADCA0I3S MODE0 JP4 1-2

P0_3/TAUD0I8/ TAUD0O8/ RLIN30RX/INTP10/C A N 1 T X / DPIN1/PWGA13O/CSIH0SO 1-2

P10_7/TAUD0I1 5/ TAUD0O15 /CSIG0SC/ENCA0TIN1/PWGA4O/ CAN 1 TX 3-4

5-6

P0_2/TAUD0I6/ TAUD0O6/ C A N 1 R X/INTP1/RLIN30TX/PWGA12O/CSIH0SC/DPO 1-2

P10_6/TAUD0I1 3/ TAUD0O13 /CSIG0SO/ENCA0TIN0/ADCA0SEL2/ CAN 1 RX /INTP1/MODE2 3-4

5-6

P9 _ 2 / KR0 I6/PWGA20O/TAPA0ESO/CSIH2CSS2/ADCA0I9S MODE1 JP8 1-2

P0_4/ RLIN31RX /INTP11/ CAN2 TX /PWGA10O/CSIH1SI/SELDP0/ DPIN8 1-2

P12_0/C A N 2 TX/PWGA56O/TAUB1I10/TAUB1O10 3-4

5-6

P0_5/ CAN2 R X /INTP2/RLIN31TX/DPIN9 /SELDP1/CSIH1SO 1-2

P11_15/ CAN2 R X /INTP2/CSIH2 CSS4/PWGA55 O/TAUB1I8/TAUB1O8 3-4

5-6

P9 _ 3 / KR0 I7/PWGA21O/CSIH2CSS3/TAUJ1I1/TAUJ1O1/ ADCA0I10S MODE2 JP12 1-2

P0_8/RLIN21TX/DPIN6/CSIH0CSS6/ CSIH1SSI/TAUB0I2 /TAUB0O2/ CAN 3 TX 1-2

P11_4/CSIH2SI/C A N 3 TX/PWGA29O/TAUB1I3/TAUB1O3 3-4

P1_3/ CAN3 TX /DPIN23 5-6

P0_7/RLIN21RX/DPIN5 /CSCXFOUT/CSIH1RYI/CSIH1RYO/TAUB0I0/ TAUB0O0/ C A N 3 R X/INTP3 1-2

P11_3/CSIH2SC/ CAN3 R X /INTP3/PWGA28O/TAUB1I1/TAUB1O1/ RLIN32TX 3-4

P1_2/ CAN3 R X /INTP3 5-6

P9 _ 4 / CSIH0CSS5/PWGA33O/TAUJ1I0/TAUJ1O0/ADCA0I11 S MODE3 JP16 1-2

P0_10/INTP3/CSIH1CSS1 /DPIN11/RLIN22TX/TAUB0I6/ TAUB0O6/ C A N 4 TX 1-2

3-4
5-6

P0_9/INTP12/CSIH1CSS0 /DPIN7/RLIN22 RX/ TAUB0I4/TAUB0O4/ C A N 4 R X /INTP4 1-2

3-4
5-6

P9 _ 5 / CSIH0CSS6/PWGA34O/TAUJ1I1/TAUJ1O1/ADCA0I12 S MODE4 JP20 1-2

P0_14/RLIN32TX/PWGA47 O/TAUB0I14/TAUB0O1 4/CSIG0SC/C A N 5 TX 1-2

P11_6/RLIN33RX/ INTP13/C A N 5 TX/ADCA1TRG1/PWGA31O/CSIH3SO/TAUB1I7/TAUB1O7 3-4

5-6

P0_13/RLIN32RX/ INTP12/PWGA46 O/TAUB0I12/TAUB0O1 2/CSIG0SO/ CAN5 R X /INTP5 1-2

P11_5/C A N 5 RX /INTP5/RLIN33TX/P WGA30O/ CSIH3SI/TAUB1I5/TAUB1O5 3-4

5-6

P9 _ 6 / CSIH0CSS7/PWGA35O/ADCA0I13S MODE5 JP24 1-2

1-2

3-4
5-6
1-2
3-4
5-6

MODE6 JP28 1-2

Default

TxD

JP26

CAN 5

RxD

JP27

TxD

JP30

CAN 6

RxD

JP31

TxD

JP18

CAN 3

RxD

JP19

TxD

JP22

CAN 4

RxD

JP23

TxD

JP10

CAN 1

RxD

JP11

TxD

JP14

CAN 2

RxD

JP15

Jumper

TxD

JP6

CAN 0

RxD

JP7

Following table shows the connection of RH850/F1K.

- 8 -

JP5, JP9, JP13, JP17, JP21, JP25 and JP25 are termination resistor connect. Open or short these

as needed.

About the MODE signal

The MODE signal is connected to the STB terminal of the CAN driver IC (TJA1044GT).

If not controlled by the port, changing the jumper pin to 2-3 short circuit will be fixed to Low, and it

can always be in the normal state.

Connection diagram

From CPU Port

From CPU Port

From CPU Port
From CPU Port

From CPU Port
From CPU Port
From CPU Port

R14
100K

JP4

2

1
3

U5

TJA1044GT

STB

8

Txd

1

Vcc

3

GND

2

Rxd4NC

5

CANL

6

CANH

7

C13

0.1uF

JP7

1 2
3 4
5 6

R16

1.5K

R13

60.4

JP6

1 2
3 4
5 6

R12

60.4

R10
100K

JP5
FFC-4BMEP1

1 2

3 4

C12

4700pF

DSUB1

5
9
4
8
3
7
2
6
1

FG1 FG2

VDD

VDD

VDD

VDD

CAN 0,1,2,3,4,5 DSUB Connector

Pin Number

Signal Name

1

N.C.

2

CANL

3

GND

4

N.C.

5

0.1uF GND

6

N.C.

7

CANH

8

N.C. 9 N.C.

Termination resistor

JP5 : CAN 0

JP9 : CAN 1

JP13:CAN 2

JP17:CAN 3

JP21: CAN 4

JP25: CAN 5

JP29: CAN 6

1-2 Short
3-4 Short

120Ω

1-2 Open
3-4 Open

Non

- 9 -

2.2 Serial select

It can be connected by selecting the microcomputer's UART terminal to "LCD",
"RS-232C", "USB Serial Conversion", and "LIN".

The terminals for using UART can be selected by jumpers.

The connection destination of each UART can be selected with the jumper switch shown
below.

UART0_TXD

JP33

1-2(LCD)

UART0_RXD

JP35

1-2(LCD)

UART1_TXD

JP37

3-4(USB)

UART1_RXD

JP39

3-4(USB)

UART2_TXD

JP41

5-6(RS)

UART2_RXD

JP43

5-6(RS)

P10_10/TAUD0I14/TAUD0O14/RL I N 30T X /ENCA0E1/PWGA7O/CSIH0CSS1 1-2

P1_1/RLI N 33T X 3-4

P11_5/CAN5RX/INTP5/R LIN 33T X/PWGA30O/CSIH3SI/TAUB1I5/TAUB1O5 5-6

P10_9/TAUD0I12/TAUD0O12/RL I N 30R X/INTP10/ENCA0E0/PWGA6O/CSIH0RYI/CSIH0RYO 1-2

P1_0/RLI N 33R X/INTP13 3-4

P11_6/RLI N 33R X/INTP13/CAN5TX/ADCA1TRG1/PWGA31O/CSIH3SO/TAUB1I7/TAUB 1O7 5-6

P10_12/PWGA17O/RLI N 3 1 TX/CSIH1CSS1/TAUB 0I3/TAUB0O3 1-2

P1_9/RLI N 34T X /DPIN20 3-4

P12_2/RLI N 34T X /PWGA58O/TAUB1I14/TAUB 1O14 5-6

P10_11/PWGA16O/RLI N 3 1 R X /INTP11/CSIH1CSS0/TAUB0I1/TAUB 0O1 1-2

P1_8/RLI N 34R X/INTP14 3-4

P12_1/RLI N 34R X/INTP14/CSIH2CSS5/PWGA57O/TAUB1I12/TAUB 1O12 5-6

P10_14/ADCA1TRG0/PWGA19O/R LI N 3 2 TX/CSIH3SSI/TAUB 0I7/TAUB0O7 1-2

P1_5/ADCA1TRG0/R LIN 3 5T X /DPIN17 3-4

P11_8/CSIG1SSI/RLI N 3 5 TX/PWGA48O/TAUB1I11/TAUB1O11 5-6

P10_13/CSIH0SSI/PWGA18O/R LI N 3 2 R X/INTP12/TAUB0I5/TAUB0O5 1-2

P1_4/RLI N 35R X/INTP15 3-4

P11_9/CSIG1SO/R LI N 3 5R X/INTP15/PWGA49O/TAUB1I13/TAUB1O13 5-6

Default

TxD

UART2

RxD

TxD

UART0

RxD

TxD

UART1

RxD

JP36

JP38

JP40

JP42

JP32

JP34

Short position

Connection destination

1-2

LCD

3-4

USB

5-6

RS-232C

7-8

LIN

JP32, JP34, JP36, JP38, JP40, JP42

JP33, JP35, JP37, JP39, JP41, JP43

- 10 -

Connection diagram

UART0_RXD

JP36

1 2
3 4
5 6

JP32

1 2
3 4
5 6

JP40

1 2
3 4
5 6

JP38

1 2
3 4
5 6

JP42

1 2
3 4
5 6

JP34

1 2
3 4
5 6

From CPU Port

UART_USB_TXD

UART_USB_RXD

UART_RS_TXD

UART_RS_RXD

UART_LCD_TXD

UART_LCD_RXD

JP33

1 2
3 4
5 6
7 8

JP35

1 2
3 4
5 6
7 8

JP37

1 2
3 4
5 6
7 8

JP39

1 2
3 4
5 6
7 8

From CPU Port

From CPU Port

JP41

1 2
3 4
5 6
7 8

JP43

1 2
3 4
5 6
7 8

UART0_TXD

UART_LIN_TXD

UART1_TXD

UART1_RXD

UART_LIN_RXD

UART2_TXD

UART2_RXD

From CPU Port
From CPU Port

From CPU Port

From CPU Port

From CPU Port
From CPU Port

From CPU Port

From CPU Port

From CPU Port

From CPU Port
From CPU Port

From CPU Port

From CPU Port

From CPU Port

From CPU Port

- 11 -

2.2.1 LCD

Words can be displayed on LCD panel by sending data to UART that is connected to LCD.

"Binary mode" to display hexadecimal and "ASCII mode" to display ASCII characters can be

selected by the DIP switch (SW1).

Initial screen displays when you press the reset switch on CPU board.

UART Communication Specifications

・ Baud Rate 115.2Kbps (Fixed)

・ Data Length 8ｂｉｔ (LSB First)

・ Parity None

・ Stop Bit 1bit

・ Flow Control None (continuous transmission enabled)

Binary Mode 1 (SW1_1:ON, SW1_2:ON, SW1_3:Any)

It displays the hexadecimal data as sent with entering space between 1Byte data.

It can display 10Byte in 1 screen. It scrolls 1 line when it received 11Byte of data.

(example） URTH?TX = 0x01; TXWait();

URTH?TX = 0x02; TXWait();

・・・・・・・・・・

URTH?TX = 0x0A; TXWait();

０ １ ０ ２ ０ ３ ０ ４ ０ ５

０ ６ ０ ７ ０ ８ ０ ９ ０ Ａ

URTH?TX = 0x10; TXWait();

０ ６ ０ ７ ０ ８ ０ ９ ０ Ａ １ ０

(use case） By developing a program to send 10Byte once in 1 second, it will display the

first 1Byte at the top-left of the screen.

VR1
Adjust LCD Contrast

SW1

- 12 -

Binary Mode 2 (SW1_1:ON, SW1_2:OFF, SW1_3:ON)

It displays the hexadecimal data as sent without entering space between 1Byte data.

It can display 16Byte in 1 screen. It scrolls 1 line when it received 17Byte of data.

(example） URTH?TX = 0x01; TXWait();

URTH?TX = 0x02; TXWait();

・・・・・・・・・・

URTH?TX = 0x10; TXWait();

０ １ ０ ２ ０ ３ ０ ４ ０ ５ ０ ６ ０ ７ ０ ８ ０ ９ ０ Ａ ０ Ｂ ０ Ｃ ０ Ｄ ０ Ｅ ０ Ｆ １

０

URTH?TX = 0x11; TXWait();

０ ９ ０ Ａ ０ Ｂ ０ Ｃ ０ Ｄ ０ Ｅ ０ Ｆ １ ０ １ １

(use case） By developing a program to send 16Byte once in 1 second, it will display the

first 1Byte at the top-left of the screen.

- 13 -

ASCII Mode Ver.2 (SW1_1:OFF, SW1_2:Any, SW1_3:Any)

It displays the characters as sent.

It can display 16 characters in 1 line. It scrolls 1 line when it received 17th character or

linefeed code (0x0D: \r ).

(example） URTH?TX = ‘F’; TXWait();

URTH?TX = ‘l’; TXWait();

・・・・・・・・・・

URTH?TX = ‘T’; TXWait();

F l e x R a y T E S T

URTH?TX = ‘\r’; TXWait();

URTH?TX = ‘1’; TXWait();

T E S T １

The position of the cursor can be specified by sending xy-coordinate right after
ESC code (0x1B).
ESC(0x1B) + xy x: 0(0x30)～9(0x39),a(0x61), b, c, d, e, f(0x66)
y: 0(0x30),1(0x31)

(example) printf(buf, “¥x1b00TEST¥x1ba1LCD”);

y

↓ 0 T E S T 1 L C D

X → 0 1 2 3 4 5 6 7 8 9 a b c d e

f

- 14 -

2.2.2 RS-232C

UART that is connected to "RS-232C" can send and receive signals with the RS-232C level of

D-SUB9 pin connector.

Use a cross cable when you connect to PC.

RS-232C D-SUB Connector

Pin Number

Signal

1

N.C. 2 RxD 3 TxD 4 N.C.

5

GND

6

N.C.

7

RTS(N.C.)

8

CTS(N.C.)

9

N.C.

RS-232C

- 15 -

2.2.3 USB Serial Conversion

UART that is connected to "USB serial conversion" can communicate with the COM port of PC

through USB controller (FT230).

If the USB driver is a PC connected to the Internet, the latest driver is automatically installed

by "Windows Update". Please wait until the pop-up "Device is ready to use" appears.

If the driver is not installed, it can be downloaded from the following URL.

http://www.ftdichip.com/Drivers/VCP.htm

Recommended UART communication specification

・ Baud rate 115.2Kbps

・ Data length 8bit (LSB First)

・ Parity None

・ Stop Bit 1ｂｉｔ

・ Flow Control None

USB1

- 16 -

2.2.4 LIN

The UART connected to "LIN" is connected to the LIN compatible transceiver (TJA1020T) and

corresponds to the physical layer of LIN.

Default setting JP44: Open

JP45: Short (LIN Master)

CN3 : IL-G-3P-S3L2-SA (JAE)

JP45

Function

Short

LIN Master

Open

LIN Slave

CN3

Function

1

JP44 short circuit output +12V

2

GND

3

LIN

JP44

CN3

JP45

- 17 -

2.3 Push Switch

4 interrupt signals can be connected to microcomputer's interrupt terminals. The signal can

be set to High by pressing H button, and to Low by pressing L button. It becomes High by reset

signal of the CPU.

Also, it has chattering prevention circuit.

The interrupt signals are disconnected by taking each jumper pin out.

Jumper Switch Signal

P9_0/NM I /PWGA8O/TAUD0I0/TAUD0O0/ADCA0TRG0/CSIH2CSS0/KR0I4/ADCA0I2S NMI JP46:Open SW2/3 SW_NMI

P8_4/TAUJ0I2/TAUJ0O2/DPIN4/CSIH0CSS2/IN T P8 /PWGA36O/ADCA0I6S INTP8 JP47: Short SW4/5 SW_INTA

P8_3/TAUJ0I1/TAUJ0O1/DPIN3/CSIH0CSS1/IN T P7 /PWGA23O/ADCA0I5S INTP7 JP49: Short SW6/7 SW_INTB

P8_2/TAUJ0I0/TAUJ0O0/DPIN2/CSIH0CSS0/IN T P6 /PWGA22O/ADCA0I4S INTP6 JP50: Short SW8/9 SW_INTC

JP46

JP47

JP49

JP50

SW_NMI

SW_INTA

SW_INTB

SW_INTC

- 18 -

2.4 Volume

It can output variable voltage (0V-IO voltage) to A/D terminal of CPU by variable resistor of 10KΩ.

JP48
AP0_0/ADCA0I0 1-2
AP0_1/ADCA0I1 3-4
AP0_2/ADCA0I2 5-6
AP0_3/ADCA0I3 7-8
AP0_4/ADCA0I4 9-10
AP0_5/ADCA0I5 11-12
AP0_6/ADCA0I6 13-14
AP0_7/ADCA0I7 15-16

VR2

JP48

- 19 -

2.5 Power

Connect bundled AC adapter (+5V) to AC Jack. You do not need to connect to the AC Jack

on the CPU board.

Using the regulator from the power supplied from here, + 12V and + 3.3V are also generated.

Power supply source can be changed by JP2 and JP3.

JP2

5V

1-2

AC adapter

2-3

Terminal

JP3

3.3V

1-2

Regulator

2-3

Terminal

JP1 is the jumper to fix the IO voltage when it does not connect CPU board. Normally, do

not short this.

Terminal: VDD

Terminal: GND

JP3 : 3.3V

AC Jack

JP2 : 5V

Power LED(12V)

Power LED(5V)

Power LED(3.3V)

JP1

- 20 -

2.6 CPU Board

"EB-850/F1K-144-S" is mounted on the CPU board

Power

Switch & LED

Reset Switch

Debug Connector

Clock

Check pin

Filter

CPU

Check pin

Check pin

- 21 -

2.6.1 Power

There is a jumper pin for measuring the current when you use only CPU board itself.

No.

Select

Note

JP4

Short

Connect ammeter to check the current

JP3

1-2

Operation voltage is 5V.

2-3

Operation voltage is 3.3V.
(Only when CF-BASE board is connected)

2.6.2 CPU

For "EB-850/F1K-144-S", only socket is mounted. Make sure the position of 1pin when you

mount CPU.

CN9 : AC Jack

JP4

JP3

1pin

- 22 -

2.6.3 Clock

For the X1 and X2 of the CPU, 16MHz crystal oscillator (Y1) is mounted on the socket.

For the XT1 and XT2 of the CPU, 32.768KHz crystal oscillator (Y2) is connected.

2.6.4 Reset

CPU can be reset by pressing the Reset switch (SW2).

As a reset input method to the CF-BASE board, it is possible to select either the reset switch (SW 2)

or press the CPU port terminal (F1L: P0_0 or F1K: P8_6) with a jumper pin.

No.

Select

Notes

JP1

1-2

CPU Port(JP2 setting)

2-3

Reset Switch

JP2

1-2

RH850/F1L (P0_0)

2-3

RH850/F1K (P8_6)

Y1

Y2

SW2

JP1

JP2

- 23 -

2.6.5 Switch & LED

They are connected to port terminals of the CPU.

・ P8_0, P8_1, and P8_5 can be used for the switch inputs.

It connects the pull-up resistor with built-in CPU. Set the switch to OFF to read High

and to ON to read Low.

・ P8_8, P8_9, P8_10, and P8_11 can be connected to LED. Set the switch ON and output

Low from the port to light the LED.

・ SW1_8 is power indicator. Power LED is off when power is OFF.

SW1 Connect to

P8 _ 0 /TAUJ0I0/TAUJ0O0/DPIN2/PWGA14O/INTP4/CSIH0CSS0/ADCA0I0S 1 GND

P8 _ 1 /TAPA0ESO/TAUJ0O1/DPIN0/PWGA15O/INTP5/CSIH1CSS3/ADCA0I1S 2 GND

P8 _ 5 /TAUJ0I3/TAUJ0O3/NMI/CSIH0CSS3/INTP9/PWGA37O/ADCA0I7S 3 GND

P8 _ 8 /CSIH3CSS1/PWGA40O/ADCA0SEL1/ADCA0I15S 4 LED1

P8 _ 9 /CSIH3CSS2/PWGA41O/ADCA0SEL2/ADCA0I16S 5 LED2

P8 _ 1 0 /CSIH3CSS3/DPIN14/PWGA42O/ADCA0I17S 6 LED3

P8 _ 1 1 /TAUJ1I2/TAUJ1O2/DPIN15/PWGA43O/CSIH1CSS4/ADCA0I18S 7 LED4

Power Supply 8 Power LED

SW1

LED1, LED2, LED3, LED4

Power LED

- 24 -

2.6.6 Debug Connector

"PG-FP5" of "E1 emulator" corresponding to Low Pin Debug Interface (4-pin) or a flash

programmer is connectable with CN6.

CN6

* FLMD1 is pulldown on the board.

Pin

Number

Signal

Debugger

Writer

1

DCUTCK

JP0_2

2

GND

←

3

DCUTRST

4

FLMD0 ← 5

DCUTDO

JP0_1

6

N.C. 7

DCUTDI

JP0_0

8

VDD ← 9

DCUTMS

10

N.C. 11

DCUTRDY

12

GND ← 13

RESET ← 14

GND

←

- 25 -

2.6.7 Filter socket

Filters can be implemented to A/D input terminals.

Connects (CN1, CN2) are connected through the sockets as illustrated below. Therefore, please

make sure you connect resistor between the socket 4pin and 5pin when you use A/D terminal.

Socket

Socket

AP0_0/ADCA0I0

AP0_0

AP1_0/ADCA1I0

AP1_0

AP0_1/ADCA0I1

AP0_1

AP1_1/ADCA1I1

AP1_1

AP0_2/ADCA0I2

AP0_2

AP1_2/ADCA1I2

AP1_2

AP0_3/ADCA0I3

AP0_3

AP1_3/ADCA1I3

AP1_3

AP0_4/ADCA0I4

AP0_4

AP1_4/ADCA1I4

AP1_4

AP0_5/ADCA0I5

AP0_5

AP1_5/ADCA1I5

AP1_5

AP0_6/ADCA0I6

AP0_6

AP1_6/ADCA1I6

AP1_6

AP0_7/ADCA0I7

AP0_7

AP1_7/ADCA1I7

AP1_7

2.6.8 Check Pin

Since all I / O ports excluding the CPU's OCD shared terminal are connected, observation

of signals and signal input from the outside can be easily done. Refer to circuit diagram for

signal placement.

J1

Socket

1

2

3

4

5

Connector CPU

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3 CPU Terminal Connection List

Please download the Excel file from the web described in the document attached to the product.