Renesas RH850/F1x, RH850/R1x User Manual

R20UT4129ED0100, Rev. 1.00

2017-06-21

All information contained in these materials, including products and product specifications,
represents information on the product at the time of publication and is subject to change by
Renesas Electronics Corp. without notice. Please review the latest information published by
Renesas Electronics Corp. through various means, including the Renesas Technology Corp.
website (http://www.renesas.com).
The newest version of this document can be obtained from the following web location

http://www.renesas.eu/updates?oc=Y-RH850-F1X-144PIN-PB-T1-V3

www.renesas.com

32

Use
r´s

Manual

RH850 Evaluation Platform

RH850/F1x 144-pin
RH850/R1x 144-pin
PiggyBack board V3

Y-RH850-F1X-144PIN-PB-T1-V3

Y-RH850-F1X-144PIN-PB-T1-V3 User’s Manual

Notice

1. Descriptions of circuits, software and other related information in this document are provided only to illustrate the operation of
semiconductor products and application examples. You are fully responsible for the incorporation of these circuits, software, and
information in the design of your equipment. Renesas Electronics assumes no responsibility for any losses incurred by you or third
parties arising from the use of these circuits, software, or information.

2. Renesas Electronics has used reasonable care in preparing the information included in this document, but Renesas Electronics
does not warrant that such information is error free. Renesas Electronics assumes no liability whatsoever for any damages
incurred by you resulting from errors in or omissions from the information included herein.

3. Renesas Electronics does not assume any liability for infringement of patents, copyrights, or other intellectual property rights of
third parties by or arising from the use of Renesas Electronics products or technical information described in this document. No
license, express, implied or otherwise, is granted hereby under any patents, copyrights or other intellectual property rights of
Renesas Electronics or others.

4. You should not alter, modify, copy, or otherwise misappropriate any Renesas Electronics product, whether in whole or in
part.Renesas Electronics assumes no responsibility for any losses incurred by you or third parties arising from such
alteration,modification, copy or otherwise misappropriation of Renesas Electronics product.

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recommended applications for each Renesas Electronics product depends on the product’s quality grade, as indicated below.
"Standard": Computers; office equipment; communications equipment; test and measurement equipment; audio and

visual equipment; home electronic appliances; machine tools; personal electronic equipment; and
industrial robots etc.

"High Quality": Transportation equipment (automobiles, trains, ships, etc.); traffic control systems; anti-disaster
systems; anti-crime systems; and safety equipment;

Renesas Electronics products are neither intended nor authorized for use in products or systems that may pose a direct threat to
human life or bodily injury (artificial life support devices or systems, surgical implantations etc.), or may cause serious property
damages (nuclear reactor control systems, military equipment etc.). You must check the quality grade of each Renesas Electronics
product before using it in a particular application. You may not use any Renesas Electronics product for any application for which it
is not intended. Renesas Electronics shall not be in any way liable for any damages or losses incurred by you or third parties
arising from the use of any Renesas Electronics product for which the product is not intended by Renesas Electronics.

6. You should use the Renesas Electronics products described in this document within the range specified by Renesas Electronics,
especially with respect to the maximum rating, operating supply voltage range, movement power voltage range, heat radiation
characteristics, installation and other product characteristics. Renesas Electronics shall have no liability for malfunctions or
damages arising out of the use of Renesas Electronics products beyond such specified ranges.

7. Although Renesas Electronics endeavors to improve the quality and reliability of its products, semiconductor products have specific
characteristics such as the occurrence of failure at a certain rate and malfunctions under certain use conditions. Further, Renesas
Electronics products are not subject to radiation resistance design. Please be sure to implement safety measures to guard them
against the possibility of physical injury, and injury or damage caused by fire in the event of the failure of a Renesas Electronics
product, such as safety design for hardware and software including but not limited to redundancy, fire control and malfunction
prevention, appropriate treatment for aging degradation or any other appropriate measures. Because the evaluation of
microcomputer software alone is very difficult, please evaluate the safety of the final products or systems manufactured by you.

8. Please contact a Renesas Electronics sales office for details as to environmental matters such as the environmental compatibility
of each Renesas Electronics product. Please use Renesas Electronics products in compliance with all applicable laws and
regulations that regulate the inclusion or use of controlled substances, including without limitation, the EU RoHS Directive.
Renesas Electronics assumes no liability for damages or losses occurring as a result of your noncompliance with applicable laws
and regulations.

9. Renesas Electronics products and technology may not be used for or incorporated into any products or systems whose
manufacture, use, or sale is prohibited under any applicable domestic or foreign laws or regulations. You should not use Renesas
Electronics products or technology described in this document for any purpose relating to military applications or use by the
military, including but not limited to the development of weapons of mass destruction. When exporting the Renesas Electronics
products or technology described in this document, you should comply with the applicable export control laws and regulations and
follow the procedures required by such laws and regulations.

10. It is the responsibility of the buyer or distributor of Renesas Electronics products, who distributes, disposes of, or otherwise places
the product with a third party, to notify such third party in advance of the contents and conditions set forth in this document,
Renesas Electronics assumes no responsibility for any losses incurred by you or third parties as a result of unauthorized use of
Renesas Electronics products.

11. This document may not be reproduced or duplicated in any form, in whole or in part, without prior written consent of Renesas
Electronics.

Please contact a Renesas Electronics sales office if you have any questions regarding the information contained in this document or
Renesas Electronics products, or if you have any other inquiries.

(Note 1) "Renesas Electronics" as used in this document means Renesas Electronics Corporation and also includes its majority-owned
subsidiaries.

(Note 2) "Renesas Electronics product(s)" means any product developed or manufactured by or for Renesas Electronics.

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1. Handling of Unused Pins
Handle unused pins in accordance with the directions given under Handling of Unused Pins in the
manual.
⎯ The input pins of CMOS products are generally in the high-impedance state. In operation with an
unused pin in the open-circuit state, extra electromagnetic noise is induced in the vicinity of 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. Unused pins should be handled as
described under Handling of Unused Pins in the manual.

2. Processing at Power-on
The state of the product is undefined at the moment when power is supplied.
⎯ The states of internal circuits in the LSI are indeterminate and the states of register settings and
pins are undefined at the moment when power is supplied.
In a finished product where the reset signal is applied to the external reset pin, the states of pins
are not guaranteed from the moment when power is supplied until the reset process is completed.
In a similar way, the states of pins in a product that is reset by an on-chip power-on reset function
are not guaranteed from the moment when power is supplied until the power reaches the level at
which resetting has been specified.

3. Prohibition of Access to Reserved Addresses
Access to reserved addresses is prohibited.
⎯ The reserved addresses are provided for the possible future expansion of functions. Do not access
these addresses; the correct operation of LSI is not guaranteed if they are accessed.

4. Clock Signals
After applying a reset, only release the reset line after the operating clock signal has become stable.
When switching the clock signal during program execution, wait until the target clock signal has stabilized.
⎯ When the clock signal is generated with an external resonator (or from an external oscillator)
during a reset, ensure that the reset line is only released after full stabilization of the clock signal.
Moreover, when switching to a clock signal produced with an external resonator (or by an external
oscillator) while program execution is in progress, wait until the target clock signal is stable.

5. Differences between Products
Before changing from one product to another, i.e. to a product with a different part number, confirm
that the change will not lead to problems.
⎯ The characteristics of Microprocessing unit or Microcontroller unit products in the same group but
having a different part number may differ in terms of the internal memory capacity, layout pattern,
and other factors, which can affect the ranges of electrical characteristics, such as characteristic
values, operating margins, immunity to noise, and amount of radiated noise. When changing to a
product with a different part number, implement a system-evaluation test for the given product.

General Precautions in the Handling of Microprocessing Unit and Microcontroller Unit Products

The following usage notes are applicable to all Microprocessing unit and Microcontroller unit products from Renesas.

For detailed usage notes on the products 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.

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Table of Contents

Chapter 1 Introduction ......................................................................... 5

Chapter 2 Overview .............................................................................. 6

2.1 Overview ............................................................................................... 6

2.2 Mounting of the device ........................................................................ 7

Chapter 3 Jumper Configuration ......................................................... 8

Chapter 4 Power supply ..................................................................... 10

4.1 Board power connection ................................................................... 10

4.2 Voltage distribution ............................................................................ 11

Chapter 5 Clock sources .................................................................... 12

5.1.1 MainOsc ....................................................................................................................... 12

5.1.2 SubOSC ....................................................................................................................... 12

Chapter 6 Debug and Programming interface .................................. 13

Chapter 7 Connectors for ports of device ......................................... 14

7.1 Push button for RESET ...................................................................... 14

7.2 Connectors to MainBoard .................................................................. 14

7.2.1 Connector CN1 ............................................................................................................ 14

7.2.2 Connector CN2 ............................................................................................................ 16

7.2.3 Connector CN3 ............................................................................................................ 18

Chapter 8 Other circuitry .................................................................... 20

8.1 Push button for RESET ...................................................................... 20

8.2 Mode Selection ................................................................................... 20

8.3 Signalling LEDs .................................................................................. 20

Chapter 9 Mechanical dimensions .................................................... 21

Chapter 10 Schematic ................................................................ .......... 22

Chapter 11 Revision History ................................................................ 25

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Chapter 1 Introduction

The RH850/F1x Application Board is part of the RH850 Evaluation Platform and
serves as a simple and easy to use platform for evaluating the features and
performance of Renesas Electronics 32-bit RH850/F1x microcontrollers. The
piggyback board (Y-RH850-F1X-144PIN-PB-T1-V3) can be used as a standalone
board, or can be mated with a mainboard (e.g. Y-RH850-X1X-MB-Tx-Vx) for
extended functionality.

Main features:

 Socket for mounting of device
 Standalone operation of the board
 Direct supply of device voltage (typ. 3.3V-5.0V)
 Device programming capability
 Device debugging capability
 Pin headers for direct access to each device pin
 Reset switch
 MainOSC and SubOSC circuitry
 Signal LEDs
 Connectors to MainBoard

This document describes the functionality provided by the piggyback board and
guides the user through its operation.

For details regarding the operation of the microcontroller, refer to the User’s
Manual of the applicable devices:

 RH850/F1L
 RH850/R1L
 RH850/F1M
 RH850/F1K
 RH850/F1KM-S4

This manual describes the following board revision:

 Y-RH850-F1X-144PIN-PB-T1-V3

For differences to the Y-RH850-F1X-144PIN-PB-T1-V2 see the Revision History.

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Device pin #1

Chapter 2 Overview

2.1 Overview

Figures 1 and 2 provide the views of the Piggyback Board.

Figure 1 – PiggyBoard top view

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Figure 2 – PiggyBoard bottom view

Y-RH850-F1X-144PIN-PB-T1-V3 User’s Manual

2.2 Mounting of the device

The board is designed for use with the following devices, all in their 144 pin
package:

 RH850/F1L
 RH850/F1M
 RH850/F1K
 RH850/F1KM-S4
 RH850/R1L

The device must be placed inside the socket IC1. To insert the device, press
down the lid, align the #1 pin of the device to the #1pin of the socket, insert the
device inside the socket and release the lid.

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F1L

F1M

F1H

F1K

F1KM-S4

Function

JP7 1-2

closed

closed

closed

closed

open

Selection of Pin 61:
P1_6 or ISOVCL

JP7 2-3

open

open

open

open

closed

JP20

closed

open

open

closed

open

Selection of pin 98:
P9_6, VSS or REGVCC

JP22

closed

closed

closed

closed

closed

JP23

closed

closed

closed

closed

closed

JP24

closed

closed

closed

closed

closed

Selection of pin 97:
P9_5, ISOVCL or VSS

JP25

closed

closed

closed

closed

closed

JP26

closed

closed

closed

closed

closed

JP27 1-2

closed

closed

closed

closed

open

Selection of Pin 60:
P1_7 or VSS

JP27 2-3

open

open

open

open

closed

JP28 1-2

closed

closed

closed

closed

open

Selection of Pin 14:
P11_14 or VSS

JP28 2-3

open

open

open

open

closed

JP29 1-2

closed

closed

closed

closed

open

Selection of Pin 73:
P11_13 or ISOVCL

JP29 2-3

open

open

open

open

closed

JP21 1-2

closed

open

open

Either

open

Selection of PWGA34:
Either from P9_5 or P0_11

JP21 2-3

open

closed

closed

Or

closed

JP17 1-2

closed

open

open

Either

open

Selection of PWGA35:
Either P9_6 or P0_6

JP17 2-3

open

closed

closed

Or

closed

JP18 1-2

closed

closed

closed

closed

open

Selection of PWGA53:
Either P11_13 or P10_4

JP18 2-3

open

open

open

open

closed

JP19 1-2

closed

closed

closed

closed

open

Selection of PWGA54:
Either P11_14 or P10_5

JP19 2-3

open

open

open

open

closed

Chapter 3 Jumper Configuration

The function of the board can be configured via jumpers. This chapter describes
the standard configuration, i.e. jumper setting for the intended devices. For the
supported function of the used device, please refer to the corresponding HW
user’s manual.

The table has the following meaning:
 x-y: Connect the pins x and y; valid for 3-pin jumpers (e.g. JP19)

The pin #1 can be identified by a small circle in the vicinity of the jumper

Depending on the used device a configuration of several jumpers is required. The
detailed configuration is shown below:

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The jumper setting also are shown in this picture:

Figure 3 – Jumper setting overview

 The green jumper JP12 for FLMDO0 always must be closed for a

‘normal’ (user mode and debug) operation of the device.

 The red jumpers must be set for a single “Voltage 1” (typ +5.0V)

operation of the device.

 The blue jumper must be set for a single “Voltage 2” (typ +3.3V)

operation of the device.

 The orange jumpers must be selected depending on the used device.

See the printing on the board for the applicable setting.

For jumper settings related to the device operation mode, refer to the
chapter 8.2.

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Chapter 4 Power supply

4.1 Board power connection

For operation of the device, a supply voltage must be connected to the board.
Though a single supply voltage is sufficient for the operation of the device, two
(different) voltages can be supplied to the board.

Within this document the following voltages are considered as ‘typical’

connections:

Voltage1 = 5.0V
Voltage2 = 3.3V

The following connectors are available to supply those voltages:
 Three 4mm ‘banana-type’ connectors:

- Two red connectors for voltages Voltage1 (CN10) and Voltage2 (CN11).

- A black connector for VSS connection (CN12).
Note: The three connectors are supplied with the board but not assembled.

 The E1 emulator, that is used for debug purposes and flash programming,

can also supply a single operating voltage (‘Dbg_Voltage’).
The voltage is programmable via the E1 GUI as 3.3 or 5.0V (typ).

See the documentation of the E1 and chapter 5 ‘Debug and Programming

interface’ for details.

 In case the PiggyBoard is mounted on a MainBoard, the voltages Voltage1

and Voltage2 are supplied by the on-board regulators of the MainBoard.

NOTE: Do not supply any voltage directly to the PiggyBoard in case it is mounted
on the MainBoard.

For each of the two voltages, ‘Voltage 1 ‘ and ‘Voltage 2’, a green LED (LED1
and LED2) is available to signal that the related voltage is available on the
PiggyBoard.

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Device supply pin

Function

REGVCC

Supply for the device internal regulators for the digital
logic.

EVCC

Supply for ports of AWO and ISO area.

BVCC

Supply for ports of AWO and ISO area.

A0VREF

Supply for ports and analog functions of ADC0.

A1VREF

Supply for ports and analog functions of ADC1.

Supply voltage

Function

VDDIOF

IO supply voltage for components located on a
connected mainboard.

REGVCC

JP9

VOLTAGE1

VOLTAGE2

VDDIOF

EVCC

BVCC

A0VREF

A1VREF

JP0

JP1

JP2

JP3

JP4

JP5

JP6

1

1

1

1

1

1

4.2 Voltage distribution

The table shows the required device power supply pins and their function:

Additional one power supply for MainBoard can be selected:

 For each of the above voltages, the voltage source can be selected from

Voltage1 (typ. 5.0V) or Voltage2 (typ. 3.3V) by the jumpers JP1 to JP6.

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Chapter 5 Clock sources

Four external crystal oscillators for the device clock supply are provided with the
board.

5.1.1 MainOsc

A crystal or ceramic resonator in the range of 8MHz to 24MHz can be mounted
on socket X1.

A 8MHz, 16Mhz and 20MHz oscillator is supplied with the board.

5.1.2 SubOSC

An oscillator with a frequency of 32.768kHz is supplied with the board and can be
soldered into the connector X2.

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CN19 pin

Device Port

Device signal

1

JP0_2

DCUTCK / LPDCLK

2

GND

GND

3

JP0_4

DCUTRST

4

FLMD0

FLMD0

5

JP0_1

DCUTDO / LPDO

6

P10_8*

FLMD1

7

JP0_0

DCUTDI / LPDI

8

‘Dbg_Voltage’

-

9

JP0_3

DCUTMS

10

JP0_6

EVTO

11

JP0_5

DCURDY /

LPDCLKOUT

12

GND

-

13

RESET

-

14

GND

-

JP10 pin

Selection for Dbg_Voltage

1-2

5V is selected

2-3

3.3V is selected

JP11 pin

Pull-up for EVTO

Open

No pull-up is applied

Closed

Pull-up is selected

Chapter 6 Debug and Programming interface

For connection of the microcontroller debug and flash programming tools, the
connector CN19 is provided.

The signal connection of the connector CN19 is shown in the picture below:

* In case of connecting a debug/programming tool to CN19, the pin header JP11
must be closed.

The ‘Dbg_Voltage’ (on CN19 pin 8) is monitored or supplied by the debug and
flash programming tools. Therefore, it is necessary to select either Voltage1 (5V)
or the Voltage2 (3.3V) by pin header JP10:

If the EVTO signal is used, a pull-up can be applied to that signal. To do so, close
the JP11.

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Pin

Function

Device Port

Pin

Function

Device Port

1

VOLTAGE1

-

2 VOLTAGE1

-

3

VOLTAGE1

-

4 VOLTAGE1

-

5

RESET

_RESET

6 NMI

P9_0

7

WAKE

-

8 - -

9

INT0

P9_1

10

INT1

P0_6

11

INT2

P9_2

12

INT3

P9_3

13 - -

14 - -

15

UART0TX

P10_10

16

UART1TX

P0_5

17

UART0RX

P10_9

18

UART1RX

P0_4

19

LIN0TX

P10_10

20

LIN1TX

P0_8

21

LIN0RX

P10_9

22

LIN1RX

P0_7

23

IIC0SDL

P10_3

24

IIC1SDL

P9_1

25

IIC0SDA

P10_2

26

IIC1SDA

P9_0

27

CAN0TX

P10_1

28

CAN1TX (*)

P0_3

29

CAN0RX

P10_0

30

CAN1RX (*)

P0_2

31

SENTIN0

P8_0

32

SENTIN1

P9_0

33

SENTOUT0

P8_1

34

SENTOUT1

P9_1

35

PSI50Rx

-

36

PSI51Rx

-

37

PSI50Tx

-

38

PSI51Tx

-

39

PSI50Snyc

-

40

PSI51Sync

-

41

FLX0TX

P11_1

42

FLX0EN

P10_11

43

FLX0RX

P10_14

44

FLX0STPWT

P10_12

45

FLX1TX

P10_8

46

FX1EN

P10_13

47

FLX1RX

P10_9

48

FLXCLK

P10_10

49 - -

50 - -

51

ETH0MDIO

-

52

ETH0MDC

-

53

ETH0RXD0

-

54

EH0TXD0

-

55

ETH0RXD1

-

56

EH0TXD1

-

57

ETH0RXD2

-

58

EH0TXD2

-

59

ETH0RXD3

-

60

EH0TXD3

-

61

ETH0RXDCLK

-

62

ETH0TXCLK

-

63

ETH0RXER

-

64

ETH0TXER

-

65

ETH0CRSDV

-

66

ETH0TXEN

-

67

ETH0RXDV

-

68

ETH0COL

-

69

ETH0RESET

-

70 - -

71 - -

72 - -

73

USB0UDMF

-

74

USB0UDMH

-

Chapter 7 Connectors for ports of device

Connection to each pin of the device is possible via the connectors CN5 to CN8.

Note :The pin headers are directly connected to the pins, therefore special care
must be taken to avoid any electrostatic or other damage to the device.

7.1 Push button for RESET

In order to issue a RESET to the device, the push-button SW1 is available.

7.2 Connectors to MainBoard

Three connectors (CN1 to CN3) are available to connect the PiggyBoard to a
MainBoard.

The signal connection of each connector is described in the following tables:

7.2.1 Connector CN1

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75

USB0UDPF

-

76

USB0UDPH

-

77 - -

78 - -

79 - -

80 - -

81 - -

82 - -

83 - -

84 - -

85

DIGIO_0

P8_0

86

DIGIO_1

P8_1

87

DIGIO_2

P8_2

88

DIGIO_3

P8_3

89

DIGIO_4

P8_4

90

DIGIO_5

P8_5

91

DIGIO_6

P8_6

92

DIGIO_7

P11_0

93

DIGIO_8

P10_0

94

DIGIO_9

P10_7

95

DIGIO_10

P10_8

96

DIGIO_11

P10_15

97

DIGIO_12

P0_9

98

DIGIO_13

P0_10

99

DIGIO_14

P0_11

100

DIGIO_15

P0_12

101 - -

102 - -

103

MUX0

P10_4

104

MUX1

P10_5

105

MUX2

P10_6

106 - -

107

ADC0

AP0_0

108

ADC1

AP0_1

109

ADC2

AP0_2

110

ADC3

AP0_3

111

ADC4

AP0_4

112

ADC5

AP0_5

113

ADC6

AP0_6

114

ADC7

AP0_7

115

VDDIOF

-

116

VDDIOF

-

117

VOLTAGE2

-

118

VOLTAGE2

-

119

VOLTAGE2

-

120

VOLTAGE2

-

CAN1 signals

PiggyBoard

MainBoard

CAN1Tx

Pin 121 (P10_7)

CN5 pin 1

CAN1Rx

Pin 120 (P10_6)

CN5 pin 2

(*) CAN1 signals for R1L
When using this PiggyBoard in conjunction of R1L 144-pin device and the

Y-RH850-X1X-MB-T1-Vx mainboard the following details must be noted:
On the PiggyBoard the signals of P0_2 and P0_3 are connected the CN1 pins 30

and 28 for usage as CAN1Rx and CAN1Tx signals.
The ports P0_2 and P0_3 on the R1L 144-pin device do not carry those CAN1

signals, they are available (only) at ports P10_6 (CAN1RX) and P10_7
(CAN1TX).

Applicable workaround / solutions:

In order to use the CAN1 instance of the R1L device on the MainBoard a manual
wire connection must be made between the related pins of the device and pin
headers on the MainBoard. See the connection below for details:

R20UT4129ED0100 Rev.1.00 15
2017-06-21

Y-RH850-F1X-144PIN-PB-T1-V3 User’s Manual

Pin

Function

Device Port

Pin

Function

Device Port

1

CAN2Tx

P12_0

2 CAN3Tx

P1_3

3

CAN2Rx

P11_15

4 CAN3Rx

P1_2

5

CAN4Tx

P0_10

6 CAN5Tx

P11_6

7

CAN4Rx

P0_9

8 CAN5Rx

P11_5

9

LIN2Tx

P0_10

10

LIN3Tx

P20_5

11

LIN2Rx

P0_9

12

LIN3Rx

P20_4

13

LIN4Tx

P1_11

14

LIN5Tx

P11_11

15

LIN4Rx

P1_10

16

LIN5Rx

P11_12

17

LIN6Tx

-

18

LIN7Tx

-

Q

LIN6Rx

-

20

LIN7Rx

-

21

LIN8Tx

-

22

LIN9Tx

-

23

LIN8Rx

-

24

LIN9Rx

-

25

LIN10Tx

P10_10

26

LIN11Tx

P0_5

27

LIN10Rx

P10_9

28

LIN11Rx

P0_4

29

LIN12Tx

P10_14

30

LIN13Tx

P1_1

31

LIN12Rx

P10_13

32

LIN13Rx

P1_0

33

LIN14Tx

P1_9

34

LIN15Tx

P1_5

35

LIN14Rx

P1_8

36

LIN15Rx

P1_4

37 - -

38 - -

39 - -

40 - -

41

MLBCLK

-

42

MLBRESET

-

43

MLBSIG

-

44

MLBDAT

-

45 - -

46 - -

47 - P10_4

48 - P10_13

49 - P10_6

50 - P10_14

51 - -

52 - -

53 - -

54 - -

55 - -

56 - -

57 - -

58 - -

59 - -

60 - -

61 - -

62 - -

63 - -

64 - -

65 - -

66 - -

67 - -

68 - -

69 - -

70 - -

71 - -

72 - -

73 - -

74 - -

75 - -

76 - -

77 - -

78 - -

79 - -

80 - -

81 - -

82 - -

83 - -

84 - -

85 - -

86 - -

87 - -

88 - -

89 - -

90 - -

91 - -

92 - -

93 - -

94 - -

95 - -

96 - -

97 - -

98 - -

99 - -

100 - -

7.2.2 Connector CN2

R20UT4129ED0100 Rev.1.00 16
2017-06-21

Y-RH850-F1X-144PIN-PB-T1-V3 User’s Manual

101 - -

102 - -

103 - -

104 - -

105 - -

106 - -

107 - -

108 - -

109 - -

110 - -

111 - -

112 - -

113 - -

114 - -

115 - -

116 - -

117 - -

118 - -

119 - -

120 - -

R20UT4129ED0100 Rev.1.00 17
2017-06-21

Y-RH850-F1X-144PIN-PB-T1-V3 User’s Manual

Pin

Function

Device Port

Pin

Function

Device Port

1

PWM00

P10_0

2 PWM01

P10_1

3

PWM02

P10_2

4 PWM03

P10_3

5

PWM04

P10_7

6 PWM05

P10_8

7

PWM06

P10_9

8 PWM07

P10_10

9

PWM08

P9_0

10

PWM09

P9_1

11

PWM10

P0_4

12

PWM11

P0_1

13

PWM12

P0_2

14

PWM13

P0_3

15

PWM14

P8_0

16

PWM15

P8_1

17

PWM16

P10_11

18

PWM17

P10_12

Q

PWM18

P10_13

20

PWM19

P10_14

21

PWM20

P9_2

22

PWM21

P9_3

23

PWM22

P8_2

24

PWM23

P8_3

25

PWM24

P10_15

26

PWM25

P11_0

27

PWM26

P11_1

28

PWM27

P11_2

29

PWM28

P11_3

30

PWM29

P11_4

31

PWM30

P11_5

32

PWM31

P11_6

33

PWM32

P11_7

34

PWM33

P9_4

35

PWM34

P9_5 or P0_11

36

PWM35

P9_6 or P0_6

37

PWM36

P8_4

38

PWM37

P8_5

39

PWM38

P8_6

40

PWM39

P8_7

41

PWM40

P8_8

42

PWM41

P8_9

43

PWM42

P8_10

44

PWM43

P8_11

45

PWM44

P8_12

46

PWM45

P0_12

47

PWM46

P0_13

48

PWM47

P0_14

49

PWM48

P11_8

50

PWM49

P11_9

51

PWM50

P11_10

52

PWM51

P11_11

53

PWM52

P11_12

54

PWM53

P11_13 or P10_4

55

PWM54

P11_14 or P10_5

56

PWM55

P11_15

57

PWM56

P12_0

58

PWM57

P12_1

59

PWM58

P12_2

60

PWM59

P20_4

61

PWM60

P20_5

62

PWM61

P18_0

63

PWM62

P18_1

64

PWM63

P18_2

65

PWM64

-

66

PWM65

-

67

PWM66

-

68

PWM67

-

69

PWM68

-

70

PWM69

-

71

PWM70

-

72

PWM71

P18_3

73

PWM72

-

74

PWM73

-

75

PWM74

-

76

PWM75

-

77

PWM76

-

78

PWM77

-

79

PWM78

-

80

PWM79

-

81

PWMADC00

AP0_8

82

PWMADC0

AP0_9

83

PWMADC02

AP0_10

84

PWMADC0

AP0_11

85

PWMADC04

AP0_12

86

PWMADC0

AP0_13

87

PWMADC06

AP0_14

88

PWMADC0

AP0_15

89

PWMADC08

AP1_0

90

PWMADC0

AP1_1

7.2.3 Connector CN3

R20UT4129ED0100 Rev.1.00 18
2017-06-21

Y-RH850-F1X-144PIN-PB-T1-V3 User’s Manual

91

PWMADC10

AP1_2

92

PWMADC1

AP1_3

93

PWMADC12

AP1_4

94

PWMADC1

AP1_5

95

PWMADC14

AP1_6

96

PWMADC1

AP1_7

97

-

-

98

-

-

99

-

-

100 - -

101

-

-

102 - -

103

-

-

104 - -

105

-

-

106 - -

107

-

-

108 - -

109

-

-

110 - -

111

-

-

112 - -

113

-

-

114 - -

115

-

-

116 - -

117

-

-

118 - -

119

-

-

120 - -

R20UT4129ED0100 Rev.1.00 19
2017-06-21

Y-RH850-F1X-144PIN-PB-T1-V3 User’s Manual

Chapter 8 Other circuitry

8.1 Push button for RESET

In order to issue a RESET to the device, the push-button SW1 is available.

8.2 Mode Selection

The PiggyBack Board gives the possibility to configure the following mode pins

 FLMD0 via jumper JP12
 FLMD1 via jumper JP13
 MODE0 via jumper JP14
 MODE1 via jumper JP15
 MODE2 via jumper JP16

To apply “High” or “Low” to the mode pins, the pins 1 and 2, or the pins 2 and 3
(if available) of the corresponding jumper must be closed, respectively.

Note: Pin 1 of all jumpers is marked by a small circle.

CAUTION: Be careful in configuration of mode related pins. Wrong configuration

and operation of the device outside of its specification can cause irregular
behaviour of the device and long term damage cannot be excluded. Be sure to
check the corresponding User’s Manual for details, which modes are specified for
the used device

Note:
In the very most cases the ‘Normal operating mode’ of the device will be used.
This mode is for execution of the user program. The on-chip debug functions also
use this mode.
To select the ‘Normal operating mode’ of the device, the FLMD0 pin must be
pulled low. To do so, close the pins 2-3 on the jumper JP25:

All other jumper related to the mode selection can be left open.

8.3 Signalling LEDs

Eight LEDs are provided to allow visual observation of the output state of device
port pins. Device pins P8_0 to P8_7 are connected to the even pins 2 to 16 of the
pin header CN24, while the LEDs 1 to 8 are connected to the odd pins 1 to 15,
respectively.

Thus the LEDs can be either connected to

- the device port pins P8_0 to P8_7 by closing the connection on CN24 using a
jumper, or

- any device port pin by using the provided wire connections.

R20UT4129ED0100 Rev.1.00 20
2017-06-21

Y-RH850-F1X-144PIN-PB-T1-V3 User’s Manual

100,00mm

160,00mm

CN2

CN1

24,00 mm

24,00 mm

CN3

9,00mm

CN4

9,00mm

80,00 mm

50,00 mm

Chapter 9 Mechanical dimensions

R20UT4129ED0100 Rev.1.00 21
2017-06-21

Y-RH850-F1X-144PIN-PB-T1-V3 User’s Manual

(F1L, F1M, F1K)

Rh850/F1KM SC160/SC240

RH850/F1K ECO, ADVANCED, PREMIUM (named F1K)

RH850/F1M ECO, ADVANCED (named F1M)

RH850/F1L ECO ADVANCED, PREMIUM (named F1L)

P1<7>

P9<6>

PIN97

P9<5>

PIN61

P1<6>

PIN60PIN12

P11<14>P11<13>

P11<13>

(name F1KM )

MAIN_OSCILLATOR

ISOVSSISOVCLP1<6>P11<14>

(F1L, F1K)

(F1KM)

(F1KM)

(F1KM)

(F1KM)

(F1KM)

PIN98PIN11

REGVCC

P9<6>P9<5>

ISOVSS

P1<6>

ISOVCL

P1<7>

ISOVSS

P11<14>P11<13>

ISOVCL

(F1M, )

(F1KM)

(F1L, F1M, F1K)

(F1M),

(F1L, F1K)

SUB_OSCILLATOR

32.786KHZ

(F1L, F1M, F1K)

ISOVSS

P1<7>

P1<6>

P1<7> (F1L, F1M, F1K)

Mon Jan 16 12:41:42 2017 PAGE 1 OF 3 1.00

EESS-0400-149-01

rh850_f1x_144pin_pb_t1_v3

Electronics Europe GmbH

8

3
2
1

13

14
12

6

7
5

36

24

24
23

19

38

47

48 484746

36
34
32
30

31

33

60

59

31

32

22

1.25V

ISOVCL

3.3 OR 5V1.25V

100n

100n

3.3 OR 5V

143

141

139

137

135

133

131

THT

HEADER 36WAY

129

127

125

123

121

119

115

117

113

111

109

7169676563615957555351494745434139

37

HEADER 36WAY

THT

144

142

107

105

140

138

136

132

103

1019997

95

HEADER 36WAY

THT

130

128

126

122

938987

85

120

116

8379817775

106

108

104

102

100

9896949290888684828078

76

74

72

70

35333168

6664626058

2927252321

5654525048

1917151311

4644424038

97531

HEADER 36WAY

THT

36343228302224262018121416

10

8

246

100N 100N

3.3 OR 5V

REGVCC BVCC

100N 100N 100N

3.3 OR 5V

EVCC

100N 100N 100N

3.3 OR 5V

A0VREF

100N

210201765432113141211

1098763210

0

ISOVCL A1VREF

3.3 OR 5V

BVCC

3

4

5

15

0

8

9

10

0

1

2

3

1

2

3

RH850_F1m_144_yam_Socket

4

9

10

11

12

13

4

5

6

7

8

9

10

11

12

13

1

14

14

2

3

4

5

6

11

0

2

10

11

15

16

17

19
18

20

21

22

23

15

16

17

18

20

21

25

26

27

28

29

30

33

34

25

26

27

35

35

144

142

143

140

141

139

137

138

136

135

134

132

133

131

130

129

144

143

142

141

140

139

138

137

135

136

134

133

132

131

130

129

127

128

126

125

124

122

123

121

119

120

117

118

116

114

115

113

112

111

109

110

128

127

126

125

124

123

122

121

120

119

118

117

116

115

114

113

112

111

110

109

108

107

106

108 1

107

10623

105

104

103

102

101

105

104

103

4

5

6

102

101

7

100

100

99

98

97

96

98

97

96

4

5

4

95395

3739424140

3738394041

42

44434549505251

43454649505152

54535557565861

62

535455565758596061

62

646365666768697071

72

636465666768697071

72

93

91

90

94

93

92

91

90

89

88

87

86

85

89

88

87

86

85

84

83

82

81

80

84

83

82

81

80

79

78

77

76

75

79

78

77

76

75

0

1

2

3

4

5

2

1

0

6

7

8

9

10

11

12

13

14

15

747374

73

EVCC

210

9

10

11

0

8

0

6

9

54014356798

12p 12p

100N

REGVCC

3.3 OR 5V

AWOVCL

12p

16.000 MHZ + SOCKET

18PF

12p

12
11

91

112

110

114

118

12473134

3.3 OR 5V

3.3 OR 5V

A0VREF

92
94

99

100n

3.3 OR 5V

1.25V

ISOVCL

REGVCC

SOCKET 2WAY

10

8

7

ISOVCL

1.25V

15

A1VREF

3.3 OR 5V

3
4
5
12

44

29
28

100n

JP20

JP22

JP23

JP24

JP25

C21

JP26

JP7

JP27

C12

C11

JP28

JP29

C22

IC1

C8C5

C10

X1

C7

R10

R11

C3

CN16

C6

C18

C17

C14C13C4C2C1C16

CN7CN8

CN6 CN5

P0<14..0>

JP0<5..0>

P8<12..0>

P11<14>

P10<15..0>

select_11

select_60

select_61

P9<5>

P9<6>

P11<13>

Z_PINS<144..1> Z_PINS<144..1>

P10<15..0>

P12<2..0>

P11<15..0>

P18<3..0>

AP1<7..0>

Z_PINS<144..1>

P0<14..0>

P10<15..0>

P1<11..0>

Z_PINS<144..1>

P9<6..0>

RESET_Z

XT1

X2

X1

FLMD0

AP0<15..0>

P1<11..0>

JP0<6..0>

P0<14..0>

P1<11..0>

select_98

select_97

select_98

select_12

select_11

select_12

JP0<6..0>

P20<5..4>

AP1<7..0>

P8<12..0>

select_97

P11<15..0>

XT2

select_61

select_60

212121

212121

321

3

2

1

321

321

46

515244

50

99
100

118

117

116

115

139

138

137

136

12
11

10
9
8
7
6

135

134

133

132

131

130

129

5
4

128

127

126

125

124

123

122

121

120

3
2
1

144

143

142

98

97

96

95

94

93

92

33

32

31

727170696867663065

64

404142

43

606162

63

28

27

26

25

24

23

22

21

555657

58

20

19

18

16

15

14

13

34

35

36

373839

54

114

113

47

539159

29

101

45

17

141

119

140

112

48

49

102

103
104
105

106

107
108

109

75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90

111

110

73
74

21

3635

3433

3231

3029

2827

2625

2423

2221

2019

1817

1615

1413

1211

10987654321

3635

3433

3231

3029

2827

2625

2423

2221

2019

1817

1615

1413

1211

10987654321

3635

3433

3231

3029

2827

2625

2423

2221

2019

1817

1615

1413

1211

10987654321

3635

3433

3231

3029

2827

2625

2423

2221

2019

1817

1615

1413

1211

10987654321

2
1

212

1

2
1

2
1

2
1

321

321

321

321

BI

BIBI

BI BI

BI

BI

BI

BI

BI

BI

IN

BIBIBI

BI

BIBIBI

BI

BI

BI

BI

BI

BI

BI

BI

BI

2
1

IN

363432302826242220

1816141210

864

2

353331292725232119

1715131197531

363432302826242220

1816141210

864

2

353331292725232119

1715131197531

36343230282624222018161412

10

864

2

353331292725232119171513119753

1

36343230282624222018161412

10

864

2

353331292725232119171513119753

1

BVSS[1]

BVSS[0]

EVCC[2]

EVCC[1]

EVCC[0]

BVCC[1]

REGVCC

AWOVCL

RESET#

BVCC[0]

ISOVCL

P10[2]

P10[1]

P10[0]

P12[2]

P12[1]

P12[0]

P11[15]

P11[7]

P11[6]

P11[5]

P11[4]

P11[3]

P11[2]

P11[1]

P10[14]

P10[13]

P10[12]

P10[11]

P10[10]

P10[9]

P10[8]

P10[7]

P10[6]

P18[3]

P18[2]

P18[1]

P18[0]

ISOVSS

A1VSS

A1VREF

AP1[0]

AP1[1]

AP1[2]

AP1[3]

AP1[4]

AP1[5]

AP1[6]

AP1[7]

P20[4]

P20[5]

P9[6]

P9[5]

P9[4]

P9[3]

P9[2]

P9[1]

P9[0]

EVSS[2]

AP0[0]

AP0[1]

AP0[2]

AP0[3]

AP0[4]

AP0[5]

AP0[6]

AP0[7]

AP0[8]

AP0[9]

AP0[10]

AP0[11]

AP0[12]

AP0[13]

AP0[14]

AP0[15]

A0VREF

A0VSS

P8[9]

P8[8]

P8[7]

P8[6]

P8[5]

P8[4]

P8[3]

P8[1]

P8[0]

P1[4]

P1[5]

P1[6]

P1[7]

EVSS[1]

P0[7]

P0[8]

P0[9]

P0[10]

JP[6]

FLMD0

X1

X2

AWOVSS

IP0[0]

XT1

P1[8]

P1[9]

P1[10]

P1[11]

JP0[0]

JP0[1]

JP0[2]

JP0[3]
JP0[4]
JP0[5]
P8[12]
P8[11]
P8[10]
P8[2]
EVSS[0]
P1[3]
P1[2]
P1[1]
P1[0]
P0[14]
P0[13]
P0[12]
P0[11]
P0[6]
P0[5]
P0[4]

P0[3]
P0[2]
P0[1]
P0[0]
P11[14]
P11[13]
P11[12]
P11[11]
P11[10]
P11[9]
P11[8]
P11[0]
P10[15]
P10[5]
P10[4]
P10[3]

Size Documen t Number

A2

Title

Date:

987654321

987654321

A

B

C

D

E

F

A

B

C

D

E

F

Chapter 10 Schematic

R20UT4129ED0100 Rev.1.00 22
2017-06-21

Y-RH850-F1X-144PIN-PB-T1-V3 User’s Manual

DEBUG AND PROGRAMMING INTERFACE PUSH BUTTON FOR RESET

MAX 3.3V

ALLOWED DC SUPPLY

ALLOWED DC SUPPLY

TO BE PRINTED ON PCB

LED - P8<7..0>

VOLTAGE DISTRIBUTION

TO BE PRINTED ON PCB

MAX 5V

OVERVOLTAGE PROTECTION

Wed Jan 18 11:04:40 2017 PAGE 2 OF 3 1.00

EESS-0400-149-01

rh850_f1x_144pin_pb_t1_v3

Electronics Europe GmbH

header 3way long jumper 2.54mm

header 3way long jumper 2.54mm

header 3way long jumper 2.54mm

GREEN

p3v3

3.3V

1SMA5919BT3G_5.6V

p5v0

NF/TD

STD POWER LAB SOCKET 4MM RED

NF/TD

NF/TD

p3v3

p5v0

A0VREF

V3V

3.3 OR 5V

3.3 OR 5V

p3v3

3.3V

10K

1SMA5919BT3G_5.6V

SMA STRAIGHT

NF/NB

51

24103

5

47K

4K7

0

0

6

8

3.3 OR 5V

EVCC

1K5

yellow

NXP_BC847C

56K

10K

1K5

yellow

NXP_BC847C

56K

10K

yellow

1K5

yellow

1K5

yellow

1K5

NXP_BC847C

56K

10K

yellow

1K5

NXP_BC847C

56K

10K

NXP_BC847C

56K

yellow

1K5

NXP_BC847C

56K

header 16way

0125346

7

10K

NXP_BC847C

56K

10K

yellow

1K5

NXP_BC847C

56K

10K

10K

TESTPOINT_SMALL_RD

100u

TESTPOINT_SMALL_RD

150

5.0V

51

1SMA5914BT3G_3.6V

100u

GREEN

MF-NSMF035x

VIN_5V

5V

VIN_3.3V

3.3V

MF-NSMF035x

STD POWER LAB SOCKET 4MM RED

3.3 OR 5V

VDDIOF

TESTPOINT_SMALL_RD

V5V

5V

3.3 OR 5V

REGVCC

BVCC

A1VREF

3.3 OR 5V

5.0V

3.3V

1SMA5919BT3G_5.6V

PUSH BUTTON 4 PIN SMD

EVCC

3.3 OR 5V

10K

10N

EVCC

3.3 OR 5V

HEADER 14WAY SHROUDED

Not to fit / Not to buy

header 2way long jumper 2.54mm

5.0V

p5v0 EVCC

3.3 OR 5V

header 3way long jumper 2.54mm

3.3 OR 5V

EVCC

STD POWER LAB SOCKET 4MM BLACK

header 3way long jumper 2.54mm

header 3way long jumper 2.54mm

header 3way long jumper 2.54mm

header 2way long jumper 2.54mm

header 2way long jumper 2.54mm

3.3V

CN11

CN12

CN10

D3

FU2

FU1

D1

CN9

D2

R3

R6

R2

CN19

R5

LED2

R9

C20

LED1

R8

C19

TP2

TP1

TP13

R1

SW1

C15

D4

R12

JP9

JP2

JP1

JP5

JP4

JP6

R33

R39

R31

TR5

R35

LED10

R23

R32

TR1

R34

R37

R38

R36

LED6

CN24

R45

TR6

R41

LED11

R43

TR2

R40

R42

TR7

R68

LED12

R44

TR3

R67

R72

R70

TR8

R74

LED13

R71

R69

TR4

R73

LED7 LED8 LED9

JP11

R17

JP10

JP3

JP0

P10<15..0>

JP0<6..0>

FLMD0

JP0<6..0>

RESET_Z

LXL2

Port3

Port7

Port2

Port6

Port0

Port1

Port2

Port3

Port4

Port5

Port6

Port7

Port1

Port5

Port0

Port4

P8<12..0>

RESET_Z

1

2

1

2

1

2

2

3

4

5

1

1 2

3 457 8

9 10

11 12

13 14

1

1

1

1 2

123

123

1

123

123

123

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2

3

1

3

2

1

3

2

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1112

1314

1516

1

3

2

1

3

2

1

3

2

1

3

2

1

3

2

1

3

2

1

2

1

2

6

2

321

321

321

321

321

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2
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31 41

11 21

9 01

864

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B

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C

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E

C

16 15

14 13

12 11

10 9

8 7

6 5

4 3

2 1

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E

C

B

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C

IN

Size Documen t Number

A2

Title

Date:

987654321

987654321

A

B

C

D

E

F

A

B

C

D

E

F

753

1

R20UT4129ED0100 Rev.1.00 23
2017-06-21

Y-RH850-F1X-144PIN-PB-T1-V3 User’s Manual

FUDUCIALS AND GROUND TEST POINTS

BOTTOM

TOP

RUBBER FEET

CONNECTOR1

CONNECTOR4

FLMD1

MODE Jumper

MODE0 MODE1 MODE2

CONNECTOR3CONNECTOR2

MAIN BOARD CONNECTORS

Mon Jan 16 12:41:43 2017 PAGE 3 OF 3 1.00

EESS-0400-149-01

rh850_f1x_144pin_pb_t1_v3

Electronics Europe GmbH

QSH-060-01-F-D-A

3.3 OR 5V

VDDIOF3.3 OR 5Vp3v3

3.3V

VDDIOF

p3v3

3.3V

p5v0

5.0V

p5v0

5.0V

EVCC

3.3 OR 5V

62

EVCC

3.3 OR 5V

1

EVCC

3.3 OR 5V

8

EVCC

3.3 OR 5V

EVCC

3.3 OR 5V

100K

QTH-060-01-F-D-A

NF/NB

RUBBER FOOT D=11.1MM/H=5MM GREY

RUBBER FOOT D=11.1MM/H=5MM GREY

RUBBER FOOT D=11.1MM/H=5MM GREY

RUBBER FOOT D=11.1MM/H=5MM GREY

RUBBER FOOT D=11.1MM/H=5MM GREY

FIDUCIAL_1MM

FIDUCIAL_1MM

FIDUCIAL_1MM

FIDUCIAL_1MM

GND-TESTPOINT

GND-TESTPOINT

GND-TESTPOINT

GND-TESTPOINT

GND-TESTPOINT

GND-TESTPOINT

QSH-060-01-F-D-A

QTH-060-01-F-D-A

1K0

1K0

1K0

1K0

1K0

1K0

1K0

R16R15

R20

R19

R14

R18

JP19

JP18

JP17JP21

TP3

TP4

TP5

TP6

TP7

TP8

TP9

TP10

TP12

TP11

MP1

MP2

MP3

MP4

MP5

JP16JP15JP14JP13

R21

R13

JP12

CN4

CN2

CN1

CN3

P10<14>

P10<13>

P10<5>

P10<4>

P1<11>

RESET_Z

P0<11>

P8<12>

P8<11>

P18<3>

P0<14>

P11<15>

P12<0>

P10<4>

P10<6>

AP0<0>

AP0<2>

P0<11>

P10<5>

AP0<1>

AP0<3>

AP0<5>

AP0<7>

P10<15..0>P10<15..0>P10<15..0>P10<15..0>

FLMD0

P10<12>

AP0<13>

P10<14>

AP0<11>

P10<8>

P10<0>

P10<2>

P10<7>

P10<9>

P9<0>

P0<4>

P0<2>

P8<0>

P10<11>

P10<13>

P9<2>

P8<2>

P10<15>

P11<1>

P11<3>

P11<5>

P11<7>

P8<4>

P8<6>

P8<8>

P8<10>

P0<13>

P11<8>

P11<10>

P11<12>

P12<0>

P12<2>

P20<5>

P18<1>

AP0<8>

AP0<10>

AP0<12>

AP0<14>

AP1<0>

AP1<2>

AP1<4>

P10<1>

P10<3>

P10<10>

P9<1>

P0<1>

P0<3>

P8<1>

P9<3>

P8<3>

P11<0>

P11<2>

P11<4>

P11<6>

P9<4>

P8<5>

P8<7>

P8<9>

P0<12>

P11<9>

P11<11>

P12<1>

P20<4>

P18<0>

P18<2>

AP0<9>

AP0<15>

AP1<1>

AP1<3>

AP1<5>

AP1<7>AP1<6>

P9<6>

PWM35

P0<6>

P11<13>

P10<4>

PWM53

PWM34

P9<5>

PWM54

P11<14>

P10<5>

P10<8>

P9<1>

P9<2>

P10<9>

P10<10>

P10<10>

P10<9>

P10<3>

P10<1>

P10<2>

P10<0>

P8<0>

P8<1>

P11<1>

P10<14>

P10<9>

P8<0>

P8<2>

P8<4>

P8<6>

P10<0>

P0<9>

P10<8>

AP0<6>

AP0<4>

P0<12>

P0<10>

P10<15>

P10<7>

P8<5>

P11<0>

P8<1>

P8<3>

P10<10>

P10<12>

P10<11>

P10<13>

P0<7>

P9<0>

P9<1>

P0<3>

P0<2>

P9<1>

P9<0>

P9<0>

P0<4>

P0<5>

P0<6>

P9<3>

P0<8>

P11<15>

P0<10>

P0<9>

P0<10>

P0<9>

P1<10>

P10<10>

P10<9>

P10<14>

P10<13>

P1<9>

P1<8> P1<4>

P1<5>

P1<1>

P1<0>

P0<4>

P0<5>

P11<12>

P11<11>

P20<5>

P20<4>

P11<5>

P11<6>

P1<2>

P1<3>

321

321

321

321

111

1

111

111

2

1

2

1

321

321

321

128

127

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125

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4847

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3231

3029

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Size Documen t Number

A2

Title

Date:

987654321

987654321

A

B

C

D

E

F

A

B

C

D

E

F

R20UT4129ED0100 Rev.1.00 24
2017-06-21

Y-RH850-F1X-144PIN-PB-T1-V3 User’s Manual

Date

Version

Description

2017-06-21

1.0

Initial release

Chapter 11 Revision History

The table provides information about the major changes of the document
versions.

Differences to the Y-RH850-F1X-144PIN-PB-T1-V2:

 Support for RH850/F1K and F1KM-S4 devices.
 Added jumpers for mode selection.
 Added signal LEDs.
 EVTO signal added to the debug interface.
 Updated signal assignment of main board connectors CN1 to CN4.

R20UT4129ED0100 Rev.1.00 25
2017-06-21