Beck IPC@CHIP SC2x3 User manual

IPC@CHIP SC2x3

Hardware Manual V1.02 [01.03.09]

Hardware Manual

IPC@CHIP Embedded Controller Family

SC2x3

MPC5200

High Performance, 32-Bit Embedded Processor

Computer on Module (CoM) with Flash, RAM, Watchdog

Order No. IPC@CHIP

Embedded Controller SC243:

563963

Embedded Controller SC243-IEC:

IPC@CHIP SC2x3

Hardware Manual V1.02 [01.03.09]

Copyright & Trademark

IPC@CHIP® is a registered trademark of Beck IPC. Ethernet is a

registered trademark of Xerox Corporation. All other product names,

company names, logos or other designations mentioned herein are

trademarks of their respective owners.

Freescale™ is a trademark of Freescale Semiconductor,

Inc.

Ethernet is a registered trademark of Xerox Corporation.

SPI is a trademark of Motorola, Inc.

No part of this guide may be reproduced or transmitted in any form for

any purpose other than the purchaser's personal use, without the express

written permission of Beck IPC.

Beck IPC GmbH

Grüninger Weg 24

35415 Pohlheim-Garbenteich / Germany

Phone: +49 6404 695-0

Fax: +49 6404 695-500

Technical Support

Phone: +49 6404 695-200

Fax: +49 6404 695-515

Online: www.beck-ipc.com

E-mail: [email protected]

IPC@CHIP SC2x3

Hardware Manual V1.02 [01.03.09]

Table of Contents

1 Overview .................................................................................................................... 6

2 Features ..................................................................................................................... 7

3 Block Diagram ............................................................................................................ 8

4 Pin Description ........................................................................................................... 9

4.1 Pin Configuration .......................................................................................................................... 9

4.2 Address-/Data Bus ...................................................................................................................... 10

4.3 Local Plus Bus ............................................................................................................................ 11

4.4 ATA Interface .............................................................................................................................. 11

4.5 USB1 – UART4+5 Interface ....................................................................................................... 12

4.6 PSC1 – UART1 ........................................................................................................................... 13

4.7 PSC2 – UART2 + CAN ............................................................................................................... 14

4.8 PSC3 – UART3/SPI .................................................................................................................... 15

4.9 PSC6 – UART6 ........................................................................................................................... 17

4.10 I²C Bus ........................................................................................................................................ 17

4.11 MII Interface ................................................................................................................................ 18

4.12 Timers ......................................................................................................................................... 18

4.13 Reset signals .............................................................................................................................. 18

4.14 COP/JTAG-Interface ................................................................................................................... 19

4.15 Interrupts ..................................................................................................................................... 19

4.16 Power .......................................................................................................................................... 20

4.17 Programmable I/O Pins .............................................................................................................. 22

5 Mutal Exclusive Functions ........................................................................................ 23

5.1 Mutal Exclusive Functions for USB1 .......................................................................................... 23

5.2 Mutal Exclusive Functions for PSC1 .......................................................................................... 23

5.3 Mutal Exclusive Functions for PSC2 .......................................................................................... 23

5.4 Mutal Exclusive Functions for PSC3 .......................................................................................... 24

5.5 Mutal Exclusive Functions for PSC6 .......................................................................................... 24

5.6 Mutal Exclusive Functions for I2C .............................................................................................. 24

5.7 Mutal Exclusive Functions for TIMER ......................................................................................... 24

5.8 Mutal Exclusive Functions for Local Plus Bus ............................................................................ 24

6 Functional Description .............................................................................................. 25

6.1 Local Plus Bus ............................................................................................................................ 25

6.1.1 Features ................................................................................................................................................ 25

6.1.2 Interface ................................................................................................................................................. 25

6.1.3 External Local Plus Bus Signals ............................................................................................................ 26

6.1.4 Local Plus Bus Address / Data Pin Assignments ................................................................................... 27

6.2 Programmable Serial Controllers ............................................................................................... 28

6.2.1 UARTs ................................................................................................................................................... 28

6.2.2 Usage of PIO0..PIO3 in consideration of UART1 (Bootloader interface) ............................................. 29

6.2.3 I²C .......................................................................................................................................................... 30

6.2.4 USB ....................................................................................................................................................... 31

6.2.5 SPI ......................................................................................................................................................... 31

6.2.6 CAN ....................................................................................................................................................... 32

6.3 Timers ......................................................................................................................................... 33

6.4 MII Interface ................................................................................................................................ 33

6.5 Reset ........................................................................................................................................... 33

IPC@CHIP SC2x3

Hardware Manual V1.02 [01.03.09]

7 System interrupts ...................................................................................................... 34

7.1 Watchdog .................................................................................................................................... 34

8 Characteristics .......................................................................................................... 35

8.1 Absolute Maximum Ratings ........................................................................................................ 35

8.2 Recommended Operating Ranges ............................................................................................. 35

8.2.1 Voltage and Temperature ...................................................................................................................... 35

8.2.2 Supply Current ....................................................................................................................................... 35

8.2.3 Inputs ..................................................................................................................................................... 36

8.2.4 Outputs .................................................................................................................................................. 36

8.3 AC Characteristics ...................................................................................................................... 37

8.3.1 Muxed Mode .......................................................................................................................................... 37

8.3.2 Non-Muxed Mode .................................................................................................................................. 38

9 Package Information ................................................................................................. 40

9.1 Dimensions ................................................................................................................................. 40

9.2 SC2x3 Connector ....................................................................................................................... 40

10 Custom series programming of SC2x3 .................................................................. 41

11 History ................................................................................................................... 42

IPC@CHIP SC2x3

Hardware Manual V1.02 [01.03.09]

Figures

Figure 3-1: Block Diagram ............................................................................................................................................... 8

Figure 4-1: Pin Configuration Looking through Top of Package ...................................................................................... 9

Figure 6-1: Internal block diagram of PIO0..PIO3 and UART1 ...................................................................................... 29

Figure 8-1: Timing Diagram – MUXed Mode ................................................................................................................. 37

Figure 8-2: Timing Diagram–MUXed Mode ................................................................................................................... 38

Figure 8-3: Timing Diagram–Non-MUXed Mode ........................................................................................................... 39

Figure 9-1: Package Dimensions. Top view through the conductor board. ................................................................... 40

Tables

Table 4-1: Pin Description of Local Plus Bus control signals ......................................................................................... 11

Table 4-2: Pin Description of ATA control signals ......................................................................................................... 11

Table 4-3: Pin Description of USB1 - UART4+5 Interface ............................................................................................. 13

Table 4-4: Pin Description of Programmable Serial Controller 1 ................................................................................... 13

Table 4-5: Pin Description of Programmable Serial Controller 2 ................................................................................... 14

Table 4-6: Pin Description of Programmable Serial Controller 3 ................................................................................... 16

Table 4-7: Pin Description of Programmable Serial Controller 6 ................................................................................... 17

Table 4-8: Pin Description of I²C Bus ............................................................................................................................ 17

Table 4-9: Pin Description of MII ................................................................................................................................... 18

Table 4-10: Pin Description of Timers ........................................................................................................................... 18

Table 4-11: Pin Description of Reset signals ................................................................................................................. 18

Table 4-12: Pin Description of COP/JTAG-Interface ..................................................................................................... 19

Table 4-13: Pin Description of Power Pins .................................................................................................................... 21

Table 4-14: List of PIO sharing designations ................................................................................................................. 22

Table 6-1: Provided CAN baud rates ............................................................................................................................. 32

Table 8-1: Absolute Maximum Ratings .......................................................................................................................... 35

Table 8-2: Recommended Operating Ranges ............................................................................................................... 35

Table 8-3: Supply Current ............................................................................................................................................. 35

Table 8-4: Inputs ........................................................................................................................................................... 36

Table 8-5: Outputs ......................................................................................................................................................... 36

IPC@CHIP SC2x3

Hardware Manual V1.02 [01.03.09]

1 Overview

The IPC@CHIP® SC2x3 family is a combination of hardware and software including the preinstalled real time

operating system, TCP/IP stack, Web server, FTP server, Telnet server, enable designers to reduce the size,

power consumption, and cost of embedded systems, while increasing reliability, functionality, performance and

time to market.

The IPC@CHIP® SC2x3 family of Computer on Modules are embedded processors built on Power

Architecture™ technology and are specially designed for demanding control, communication and HMI tasks.

The Freescale power processor offers 760 MIPS processing performance and a high-speed Floating Point Unit

– ideal for fast data communication or complex control tasks for example in the field of motion control.

As an option it can also be used in combination with an IEC61131-3 CoDeSys Run Time System.

IPC@CHIP

RAM

FLASH

CoDeSys license included

SC243

64 MByte

32 MByte

no

SC243-IEC

64 MByte

32 MByte

yes

IPC@CHIP SC2x3

Hardware Manual V1.02 [01.03.09]

2 Features

32-Bit Freescale PowerPC Processor MPC5200B

Up to 400MHz with MPC603e Processor Core

Double Precision Floating Point Unit (FPU)

Instruction and Data Memory Management Unit (MMU)

16K Instruction and 16K Data Caches

BestComm Intelligent DMA I/O Controller

Memory

SDRAM: 16MB / 64 MB; 32Bit data length

Flash: 16MB / 32MB Flash; 32Bit data length

SRAM: 512kByte; can be supplied from battery on basis board

Parallel Interfaces

10/100 Ethernet MAC

ATA/IDE Interface

Local Plus interface

6 x Programmable Serial Controllers usable as

2 x USB 1.1 Host

6 x RS232/422/485 RTS/CTS/DCD

5 x Serial Peripheral Interface (SPI)

2 x I²C

2 x CAN 2.0B

Power Supply

Single Power Supply 3.3V

Switch-Mode DC/DC Converter on the Module (3.3V on 1.5V)

Linear DC/DC Converter on the Module (3.3V on1.8V)

1,5V / 1,8V / 3,3V Supervisory Circuit

Watchdog and power-on Reset Logic

GPIOs

40 Programmable Input/Output (PIO) Pins

Dimension

56 mm x 60 mm

240 Pin Board-to-Board connector system

IPC@CHIP SC2x3

Hardware Manual V1.02 [01.03.09]

3 Block Diagram

Figure 3-1: Block Diagram

Embedded

PowerPC 603e

Core

With double

precision FPU

16K

lCache

32 Entry

MMU

16K

DCache

32 Entry

MMU

Systems Integration

Unit

Interrupt Control

System Functions

Real Time Clock

Chip Selects

JTAG

SDRA

M

Mem

ory

Contr

oller

XL Bus

IP Bus

C Bus

SDRAM

Memory

Controller

USB

(two)

BestComm

Intelligent DMA

Unit

Clock/Reset

Generation

GPIO

16K

SRAM

IPBI

PSC1

PSC2

PSC3

PSC4

PSC5

PSC6

SPI

10/100

BaseT

I²C

(two)

J1850

CAN 2.0

A/B

(two)

PCI Controller

SDRAM

Memory

Controller

ROM/SRAM

SDRAM

Memory

Controller

ATA/IDE Host

Controller

SDRAM

Memory

Controller

SDRAM

V24 Transceiver

Power

Supervisory

Circuit

Driver/

Buffer

Flash

SRAM

LM75

E²PROM

Local Plus Bus

IPC@CHIP SC2x3

Hardware Manual V1.02 [01.03.09]

4 Pin Description

4.1 Pin Configuration

Figure 4-1: Pin Configuration Looking through Top of Package

X3

X1

IPC@CHIP SC2x3

Hardware Manual V1.02 [01.03.09]

4.2 Address-/Data Bus

Pin Name

Con

Type

Description

EXT_AD[0]

92

X1

I/O[16mA]

Address / Data bus

EXT_AD[1]

89

X1

I/O[16mA]

Address / Data bus

EXT_AD[2]

88

X1

I/O[16mA]

Address / Data bus

EXT_AD[3]

87

X1

I/O[16mA]

Address / Data bus

EXT_AD[4]

86

X1

I/O[16mA]

Address / Data bus

EXT_AD[5]

83

X1

I/O[16mA]

Address / Data bus

EXT_AD[6]

84

X1

I/O[16mA]

Address / Data bus

EXT_AD[7]

81

X1

I/O[16mA]

Address / Data bus

EXT_AD[8]

80

X1

I/O[16mA]

Address / Data bus

EXT_AD[9]

79

X1

I/O[16mA]

Address / Data bus

EXT_AD[10]

78

X1

I/O[16mA]

Address / Data bus

EXT_AD[11]

77

X1

I/O[16mA]

Address / Data bus

EXT_AD[12]

76

X1

I/O[16mA]

Address / Data bus

EXT_AD[13]

75

X1

I/O[16mA]

Address / Data bus

EXT_AD[14]

72

X1

I/O[16mA]

Address / Data bus

EXT_AD[15]

71

X1

I/O[16mA]

Address / Data bus

EXT_AD[16]

70

X1

I/O[16mA]

Address / Data bus

EXT_AD[17]

69

X1

I/O[16mA]

Address / Data bus

EXT_AD[18]

68

X1

I/O[16mA]

Address / Data bus

EXT_AD[19]

67

X1

I/O[16mA]

Address / Data bus

EXT_AD[20]

64

X1

I/O[16mA]

Address / Data bus

EXT_AD[21]

65

X1

I/O[16mA]

Address / Data bus

EXT_AD[22]

62

X1

I/O[16mA]

Address / Data bus

EXT_AD[23]

63

X1

I/O[16mA]

Address / Data bus

EXT_AD[24]

60

X1

I/O[16mA]

Address / Data bus

EXT_AD[25]

59

X1

I/O[16mA]

Address / Data bus

EXT_AD[26]

56

X1

I/O[16mA]

Address / Data bus

EXT_AD[27]

57

X1

I/O[16mA]

Address / Data bus

EXT_AD[28]

TSIZ[2]

54

X1

I/O[16mA]

Address / Data bus

Transfer Size 2 indicates the size of the transaction in

muxed mode

EXT_AD[29]

TSIZ[1]

55

X1

I/O[16mA]

Address / Data bus

Transfer Size 1 indicates the size of the transaction in

muxed mode.

EXT_AD[30]

TSIZ[0]

52

X1

I/O[16mA]

Address / Data bus

Transfer Size 0 indicates the size of the transaction in

muxed mode.

EXT_AD[31]

53

X1

I/O[16mA]

Address / Data bus (bi-directional when used as data; bit

31=msb).

GPIO7

TSIZ[1]

PIO31

84

X3

I/O[8mA]

Transfer Size 1 indicates the size of the transaction in

non-muxed mode or PIO31.

TEST_SEL_1

TSIZ[2]

12

X3

OUT[8mA]

Transfer Size 2 indicates the size of the transaction in

non-muxed mode.

IPC@CHIP SC2x3

Hardware Manual V1.02 [01.03.09]

4.3 Local Plus Bus

Pin Name

Con

Type

Description

LP_CS0#

116

X1

OUT[8mA]

Reserved. Do not connect. (internal 100kOhm pullup)

LP_CS1#

113

X1

OUT[8mA]

Local Plus Bus Chip Select (internal 100kOhm pullup)

LP_CS2#

112

X1

OUT[8mA]

Reserved. Do not connect. (internal 100kOhm pullup)

LP_CS3#

111

X1

OUT[8mA]

Local Plus Bus Chip Select (internal 100kOhm pullup)

LP_CS4#

110

X1

OUT[8mA]

ATA Chip Select CS0# (internal 100kOhm pullup)

LP_CS5#

108

X1

OUT[8mA]

ATA Chip Select CS1# (internal 100kOhm pullup)

LP_RW

91

X1

OUT[8mA]

Read/Write control signal, 1 = Read, 0 = Write

LP_ALE#

93

X1

OUT[8mA]

Local Plus Bus Address Latch Enable

LP_TS#

94

X1

OUT[8mA]

Local Plus Bus Transfer Start

LP_ACK#

95

X1

IN/

OUT[8mA]

Local Plus Bus External Acknowledge input (Open

Drain with internal pullup)

LP_OE#

96

X1

OUT[8mA]

Local Plus Bus Output Enable

Table 4-1: Pin Description of Local Plus Bus control signals

4.4 ATA Interface

Pin Name

Con

Type

Description

ATA_IOR#

100

X1

OUT[8mA]

ATA I/O Read output (Active Low)

This pin indicates a read transaction on ATA Interface

ATA_IOW#

101

X1

OUT[8mA]

ATA I/O Write output (Active Low)

This pin indicates a write transaction on ATA Interface

ATA_ISOLATION

99

X1

OUT[8mA]

ATA Isolation (Active High)

This pin is an active high signal to control external ATA

transceiver devices and to isolate the ATA bus from the

shared Local Plus bus.

ATA_INTRQ

102

X1

IN

ATA Interrupt (Active High with internal 10kOhm

pulldown)

This pin is the external ATA interrupt request.

ATA_DACK#

104

X1

IN

ATA DMA Acknowledge (Active Low)

ATA_IOCHRDY

103

X1

IN

ATA I/O Channel Ready (Active High with internal

10kOhm pullup)

This pin is used to extend ATA bus accesses

ATA_DRQ

105

X1

IN

ATA DMA Request (Active High with internal 10kOhm

pulldown)

Table 4-2: Pin Description of ATA control signals

IPC@CHIP SC2x3

Hardware Manual V1.02 [01.03.09]

4.5 USB1 – UART4+5 Interface

#USB1

Pin Name

Con

Type

Description

0

USB1_OE

PIO24

20

X3

OUT[4mA]

I/O[4mA]

USB 1 Output Enable (Active Low)

This pin is used to enable the transceiver to

transmit data on the bus or as PIO24.

1

USB1_TXN

19

X3

OUT[4mA]

USB 1 Transmit Negative

This pin is the negative output to the differential

driver.

RTS4

OUT[4mA]

Ready to Send 4 Out

This pin provides the Ready to Send output for

serial port 4. It provides the handshaking output

for serial port 4.

2

USB1_TXP

22

X3

OUT[4mA]

USB 1 Transmit Positive

This pin is the positive output to the differential

driver.

TXD4

OUT[4mA]

Transmit Data 4 Out

This pin provides serial Transmit data to the

system from serial port 4.

3

USB1_RXD

21

X3

IN

USB 1 Receive Data

This pin is the data input from the differential

driver.

RXD4

IN

Receive Data 4 In

This pin provides serial Receive Data from the

system to serial port 4.

4

USB1_RXP

24

X3

IN

USB 1 Receive Positive

This pin is used to detect single ended zero

(/SEO), error conditions, and interconnected

speed.

CTS4

IN

Clear to Send 4 In

This pin provides the Clear to Send input for

serial port 4. It provides the handshaking input

for serial port 4.

5

USB1_RXN

23

X3

IN

USB 1 Receive Negative

This pin is used to detect single ended zero

(/SEO), error conditions, and interconnected

speed.

RXD5

IN

Receive Data 5 In

This pin provides serial Receive Data from the

system to serial port 5.

6

USB1_PRTPWR

PIO25

28

X3

OUT[4mA]

I/O[4mA]

USB 1 Port Power (Active Low)

This pin can be used to enable the USB port

power output or as PIO25.

TXD5

OUT[4mA]

Transmit Data 5 Out

This pin provides serial Transmit data to the

system from serial port 5.

7

USB1_SPEED

PIO26

27

X3

OUT[4mA]

I/O[4mA]

USB 1 Speed (Active High)

This pin controls the Edge Rate Control; 1=full

speed, 0=low speed or as PIO26.

RTS5

OUT[4mA]

Ready to Send 5 Out

This pin provides the Ready to Send output for

serial port 5. It provides the handshaking output

for serial port 5.

IPC@CHIP SC2x3

Hardware Manual V1.02 [01.03.09]

#USB1

Pin Name

Con

Type

Description

8

USB1_SUSPEND

PIO27

30

X3

OUT[4mA]

I/O[4mA]

USB 1 Suspend (Active High)

This pin enables a low-power state while the

USB bus is inactive or can be used as PIO27.

CTS5

IN

Clear to Send 5 In

This pin provides the Clear to Send input for

serial port 5. It provides the handshaking input

for serial port 5.

9

USB1_OVRCNT

PIO28

29

X3

IN

I/O[4mA]

USB 1 Overcurrent Detection

This pin can also be used as PIO28.

Table 4-3: Pin Description of USB1 - UART4+5 Interface

4.6 PSC1 – UART1

#PSC1

Pin Name

Con

Type

Description

0

TXD1

PIO0

65

X3

OUT[4mA]

I/O[4mA]

Transmit Data 1 Out

This pin provides serial Transmit data to the system

from serial port 1 or can be used as PIO0

TXD1

72

X3

OUT[RS232]

Transmit Data 1 Out

This pin provides the signal TXD1 using RS232 level.

1

RXD1

PIO1

63

X3

IN

I/O[4mA]

Receive Data 1 In

This pin provides serial Receive Data from the system

to serial port 1 or can be used as PIO1

RXD1

71

X3

IN[RS232]

Receive Data 1 In

This pin provides the signal RXD1 using RS232 level.

2

RTS1

PIO2

64

X3

OUT[4mA]

I/O[4mA]

Ready to Send 1 Out

This pin provides the Ready to Send output for serial

port 1. It provides the handshaking output for serial

port 1 or can be used as PIO2.

3

CTS1

PIO3

59

X3

IN

I/O[4mA]

Clear to Send 1 In

This pin provides the Clear to Send input for serial

port 1. It provides the handshaking input for serial port

1 or can be used as PIO3.

4

DCD1

PIO4

62

X3

IN

I/O[4mA]

Data Carrier Detect 1 Input

In the enhanced UART mode this signal must be

assert during the data transmission.

This pin can slo be used as PIO4.

Table 4-4: Pin Description of Programmable Serial Controller 1

IPC@CHIP SC2x3

Hardware Manual V1.02 [01.03.09]

4.7 PSC2 – UART2 + CAN

#PSC2

Pin Name

Con

Type

Description

0

TXD2

60

X3

OUT[4mA]

Transmit Data 2 Out

This pin provides serial Transmit data to the system

from serial port 2.

CAN1TXD

OUT[4mA]

CAN Transmit 1

This pin can be used as CAN controller 1 Transmit.

PIO5

I/O[4mA]

This pin can also be used as PIO5.

1

RXD2

57

X3

IN

Receive Data 2 In

This pin provides serial Receive Data from the system

to serial port 2.

CAN1RXD

IN

CAN Receiver 1

This pin can be used as CAN controller 1 Receive.

PIO6

I/O[4mA]

This pin can also be used as PIO6.

2

RTS2

56

X3

OUT[4mA]

Ready to send 2 Out

This pin provides the Ready to Send output for serial

port 2. It provides the handshaking output for serial

port 2.

CAN2TXD

OUT[4mA]

CAN Transmit 2

This pin can be used as CAN controller 2 Transmit.

PIO7

I/O[4mA]

This pin can also be used as PIO7.

3

CTS2

55

X3

IN

Clear to Send 2 In

This pin provides the Clear to Send input for serial

port 2. It provides the handshaking input for serial

port 2.

CAN2RXD

IN

CAN Receiver 2

This pin can be used as CAN controller 2 Receive.

PIO8

I/O[4mA]

This pin can also be used as PIO8.

4

DCD2

54

X3

IN

Data Carrier Detect 2 Input

In the enhanced UART mode this signal must be

assert during the data transmission.

PIO9

I/O[4mA]

This pin can also be used as PIO9.

Table 4-5: Pin Description of Programmable Serial Controller 2

IPC@CHIP SC2x3

Hardware Manual V1.02 [01.03.09]

4.8 PSC3 – UART3/SPI

#PSC3

Pin Name

Con

Type

Description

0

TXD3

53

X3

OUT[4mA]

Transmit Data 3 Out

This pin provides serial Transmit data to

the system from serial port 3.

USB2_OE

OUT[4mA]

USB 2 Output Enable (Active Low)

This pin is used to enable the transceiver to

transmit data on the bus.

PIO10

I/O[4mA]

This pin can also be used as PIO10.

TXD3

76

X3

OUT[RS232]

Transmit Data 1 Out

This pin provides the signal TXD3 using

RS232 level.

1

RXD3

51

X3

IN

Receive Data 3 In

This pin provides serial Receive Data from

the system to serial port 3.

USB2_TXN

OUT[4mA]

USB 2 Transmit Negative

This pin is the negative output to the

differential driver.

PIO11

I/O[4mA]

This pin can also be used as PIO11.

RXD3

75

X3

IN[RS232]

Receive Data 1 In

This pin provides the signal RXD1 using

RS232 level.

2

RTS3

52

X3

OUT[4mA]

Ready to send 3 Out

This pin provides the Ready to Send output

for serial port 3. It provides the

handshaking output for serial port 3.

USB2_TXP

OUT[4mA]

USB 2 Transmit Positive

This pin is the positive output to the

differential driver.

PIO12

I/O[4mA]

This pin can also be used as PIO12.

3

CTS3

47

X3

IN

Clear to Send 3 In

This pin provides the Clear to Send input

for serial port 3. It provides the

handshaking input for serial port 3.

USB2_RXD

IN

USB 1 Receive Data

This pin is the data input from the

differential driver.

PIO13

I/O[4mA]

This pin can also be used as PIO13.

4

DCD3

48

X3

IN

Data Carrier Detect 3 Input

In the enhanced UART mode this signal

must be assert during the data

transmission.

USB2_RXP

IN

USB 2 Receive Positive

This pin is used to detect single ended

zero, error conditions, and interconnected

speed.

LP_CS6#

OUT[8mA]

Local Plus Bus Chip Select shared with

PSC3

PIO14

I/O[8mA]

This pin can also be used as PIO14.

IPC@CHIP SC2x3

Hardware Manual V1.02 [01.03.09]

5

USB2_RXN

45

X3

IN

USB 2 Receive Negative

This pin is used to detect single ended zero

error conditions, and interconnected speed.

LP_CS7#

OUT[8mA]

Local Plus Bus Chip Select shared with

PSC3

PIO15

I/O[8mA]

This pin can also be used as PIO15.

6

MOSI

46

X3

OUT[4mA]

SPI Master Data Out/Slave Data In

USB2_PRTPWR

OUT[4mA]

USB 2 Port Power (Active Low)

This pin can be used to enable the USB

port power output.

PIO16

I/O[4mA]

This pin can also be used as PIO16.

7

MISO

43

X3

IN

SPI Master Data In/Slave Data Out

USB2_SPEED

OUT[4mA]

USB 2 Speed (Active High)

This pin controls the Edge Rate Control.

1=full speed, 0=low speed.

PIO17

I/O[4mA]

This pin can also be used as PIO17.

8

SS

44

X3

OUT[4mA]

SPI Slave Select

USB2_SUSPEND

OUT[4mA]

USB 2 Suspend (Active High)

This pin enables a low-power state while

the USB bus is inactive.

PIO18

I/O[4mA]

This pin can also be used as PIO18.

9

SCK

41

X3

OUT[4mA]

SPI Serial Clock

USB2_OVRCNT

IN

USB 2 Overcurrent Detection

PIO19

I/O[4mA]

This pin can also be used as PIO19.

Table 4-6: Pin Description of Programmable Serial Controller 3

IPC@CHIP SC2x3

Hardware Manual V1.02 [01.03.09]

4.9 PSC6 – UART6

#PSC6

Pin Name

Con

Type

Description

0

RXD6

PIO20

70

X3

IN

I/O[4mA]

Receive Data 6 In

This pin provides serial Receive Data from the system

to serial port 6 or can be used as PIO20.

1

CTS6

PIO21

69

X3

IN

I/O[4mA]

Clear to Send 6 In

This pin provides the Clear to Send input for serial port

6. It provides the handshaking input for serial port 6 or

can be used as PIO21.

2

TXD6

PIO22

68

X3

OUT[4mA]

I/O[4mA]

Transmit Data 6 Out

This pin provides serial Transmit data to the system

from serial port 6 or can be used as PIO22.

3

RTS6

PIO23

67

X3

OUT[4mA]

I/O[4mA]

Ready to send 6 Out

This pin provides the Ready to Send output for serial

port 6. It provides the handshaking output for serial

port 6 or can be used as PIO23.

Table 4-7: Pin Description of Programmable Serial Controller 6

4.10 I²C Bus

#I2C

Pin Name

Con

Type

Description

0

I2CCLK1

PIO29

80

X3

I/O[4mA]

I²C bus 1 Clock (Schmitt Input)

This pin can be used with the I²C block as the I2CCLK

or as PIO29.

1

I2CDTA1

PIO30

79

X3

I/O[4mA]

I²C bus 1 Data (Schmitt Input)

This pin can be used with the I²C block as the I2CDTA

or as PIO30.

2

I2CCLK2

78

X3

OUT[4mA]

I²C bus 2 Clock (Schmitt Input with internal 10kOhm

pullup)

This pin can be used with the I²C block as the I2CCLK.

3

I2CDTA2

77

X3

I/O[4mA]

I²C bus 2 Data (Schmitt Input with internal 10kOhm

pullup)

This pin can be used with the I²C block as the I2CDTA.

Table 4-8: Pin Description of I²C Bus

IPC@CHIP SC2x3

Hardware Manual V1.02 [01.03.09]

4.11 MII Interface

Pin Name

Con

Type

Description

MDIO

15

X1

I/O [4mA]

Ethernet MII 1 Management Data

MDC

16

X1

OUT [4mA]

Ethernet MII 1 Clock Out

TXCLK

9

X1

IN

Ethernet Transmit Clock

TXEN

24

X1

OUT [4mA]

Ethernet Transmit Enable (internal 100kOhm Pullup)

TXER

17

X1

OUT [4mA]

Ethernet Transmit Error

TXD[3]

20

X1

OUT [4mA]

Ethernet Transmit Data Bus Bit [3]

TXD[2]

19

X1

OUT [4mA]

Ethernet Transmit Data Bus Bit [2]

TXD[1]

22

X1

OUT [4mA]

Ethernet Transmit Data Bus Bit [1]

TXD[0]

21

X1

OUT [4mA]

Ethernet Transmit Data Bus Bit [0]

RXCLK

11

X1

IN

Ethernet Receive Clock

RXDV

14

X1

IN

Ethernet Receive Data Valid

RXER

4

X1

IN

Ethernet Receive Error

RXD[3]

5

X1

IN

Ethernet Receive Data Bus Bit [3]

RXD[2]

6

X1

IN

Ethernet Receive Data Bus Bit [2]

RXD[1]

7

X1

IN

Ethernet Receive Data Bus Bit [1]

RXD[0]

8

X1

IN

Ethernet Receive Data Bus Bit [0]

RXCRS

3

X1

IN

Ethernet Receive Carrier Sense

RXCOL

12

X1

IN

Ethernet Receive Collision

Table 4-9: Pin Description of MII

4.12 Timers

Pin Name

Con

Type

Description

PIO32

32

X3

I/O[4mA]

Internal TIMER0 can only be used as PIO32.

TIMER1

PIO33

31

X3

I/O[4mA]

Timer 1

This pin can also be used as PIO33.

TIMER2

PIO34

36

X3

I/O[4mA]

Timer 2

This pin can also be used as PIO34.

TIMER3

PIO35

33

X3

I/O[4mA]

Timer 3

This pin can also be used as PIO35.

TIMER4

PIO36

38

X3

I/O[4mA]

Timer 4

This pin can also be used as PIO36.

TIMER5

PIO37

35

X3

I/O[4mA]

Timer 5

This pin can also be used as PIO37.

TIMER6

PIO38

40

X3

I/O[4mA]

Timer 6

This pin can also be used as PIO38.

TIMER7

PIO39

39

X3

I/O[4mA]

Timer 7

This pin can also be used as PIO39.

Table 4-10: Pin Description of Timers

4.13 Reset signals

Pin Name

Con

Type

Description

RESIN#

4

X3

IN

Reset In (Active Low, Schmitt Input, 5.6kOhm pullup)

HRESET#

3

X3

IN/OUT [8mA]

Hardware Reset (Active Low, Schmitt Trigger Input with

internal 10kOhm pullup)

SRESET#

6

X3

IN/OUT [8mA]

Software Reset (Active Low, Schmitt Trigger Input with

internal 10kOhm pullup)

PORRESET#

5

X3

OUT [4mA]

Power On Reset (Active Low)

Table 4-11: Pin Description of Reset signals

IPC@CHIP SC2x3

Hardware Manual V1.02 [01.03.09]

4.14 COP/JTAG-Interface

Pin Name

Con

Type

Description

JTAG_TCK

14

X3

IN

JTAG Clock (Schmitt Trigger Input with internal 10kOhm

pullup)

The (non-reset) behavior of the active TAP and TLM state

machines is governed by the TMS value at the TCK rising

edge. TDI value is sampled at the TCK rising edge for all

shift operations. All TDO non-reset transitions (including

impedance) occur at the TCK falling edge. All shift register

capture operations occur at the TCK rising edge. All shift

register Update operations occur at the TCK falling edge.

JTAG_TDI

9

X3

IN

JTAG Data Input (with internal 10kOhm pullup)

Serial test data input can be routed to any IR or DR, as

determined by the state of the active TAP state machine and

the contents of the active IR. TDI is sampled at the TCK

rising edge while the active TAP state machine is in either

the Shift-IR or Shift-DR state.

JTAG_TDO

8

X3

OUT [8mA]

JTAG Data Output

TDO when connected to TDI (of another device), TDO

switches at the TCK falling edge. TDO is driven while the

TLM state machine is in the Shift-IR or Shift-DR states only;

it is tri-stated in all other TAP

states. Except, for the first half clock after exiting the shift

state, because of its falling edge timing.

JTAG_TMS

7

X3

IN

JTAG Mode Select (with internal 10kOhm pullup)

TAP state machine control, including TLM. The state of TMS

at rising edges of TCK uniquely determines the state

sequence of the TLM and the active TAP state machines.

Inactive TAPs ignore TMS completely.

JTAG_TRST#

11

X3

IN

JTAG Reset (Active Low with internal Pull-up)

When asserted, any on-going JTAG operation is immediately

aborted. All TAP state machines, including the TLM,

immediately enter the Test-Logic-Reset state. Other JTAG

input signals (TCK, TMS, and TDI) have no effect while

TRST is asserted. TDO is immediately tri-stated.

TEST_SEL_0

16

X3

IN

TEST_SEL_1

12

X3

IN

internal 10kOhm pullup

Table 4-12: Pin Description of COP/JTAG-Interface

4.15 Interrupts

Pin Name

Con

Type

Description

IRQ0

30

X1

IN

Interrupt 0 (Active High with internal 100kOhm pullup)

This pin is the external interrupt 0 request.

IRQ1

27

X1

IN

Interrupt 1 (Active High with internal 100kOhm pullup)

This pin is the external interrupt 0 request.

IRQ2

28

X1

IN

Interrupt 2 (Active High with internal 100kOhm pulldown)

This pin is the external interrupt 0 request.

IRQ3

23

X1

IN

Interrupt 3 (Active High with internal 100kOhm pulldown)

This pin is the external interrupt 0 request.

Table 4-13: Pin Description of Interrupts

IPC@CHIP SC2x3

Hardware Manual V1.02 [01.03.09]

4.16 Power

Pin Name

Con

Type

Description

VCC

1

X3

PWR

Power I/O: +3.3 volt power supply

VCC

13

X3

PWR

Power I/O: +3.3 volt power supply

VCC

25

X3

PWR

Power I/O: +3.3 volt power supply

VCC

37

X3

PWR

Power I/O: +3.3 volt power supply

VCC

49

X3

PWR

Power I/O: +3.3 volt power supply

VCC

61

X3

PWR

Power I/O: +3.3 volt power supply

VCC

73

X3

PWR

Power I/O: +3.3 volt power supply

VCC

85

X3

PWR

Power I/O: +3.3 volt power supply

VCC

97

X3

PWR

Power I/O: +3.3 volt power supply

VCC

109

X3

PWR

Power I/O: +3.3 volt power supply

VCC

119

X3

PWR

Power I/O: +3.3 volt power supply

GND

2

X3

PWR

Power VSS

GND

10

X3

PWR

Power VSS

GND

18

X3

PWR

Power VSS

GND

26

X3

PWR

Power VSS

GND

34

X3

PWR

Power VSS

GND

42

X3

PWR

Power VSS

GND

50

X3

PWR

Power VSS

GND

58

X3

PWR

Power VSS

GND

66

X3

PWR

Power VSS

GND

74

X3

PWR

Power VSS

GND

82

X3

PWR

Power VSS

GND

90

X3

PWR

Power VSS

GND

98

X3

PWR

Power VSS

GND

106

X3

PWR

Power VSS

GND

114

X3

PWR

Power VSS

GND

120

X3

PWR

Power VSS

VCC

1

X1

PWR

Power I/O: +3.3 volt power supply

VCC

13

X1

PWR

Power I/O: +3.3 volt power supply

VCC

25

X1

PWR

Power I/O: +3.3 volt power supply

VCC

37

X1

PWR

Power I/O: +3.3 volt power supply

VCC

49

X1

PWR

Power I/O: +3.3 volt power supply

VCC

61

X1

PWR

Power I/O: +3.3 volt power supply

VCC

73

X1

PWR

Power I/O: +3.3 volt power supply

VCC

85

X1

PWR

Power I/O: +3.3 volt power supply

VCC

97

X1

PWR

Power I/O: +3.3 volt power supply

VCC

109

X1

PWR

Power I/O: +3.3 volt power supply

VCC

119

X1

PWR

Power I/O: +3.3 volt power supply

GND

2

X1

PWR

Power VSS

GND

10

X1

PWR

Power VSS

GND

18

X1

PWR

Power VSS

GND

26

X1

PWR

Power VSS

GND

34

X1

PWR

Power VSS

GND

42

X1

PWR

Power VSS

GND

50

X1

PWR

Power VSS

GND

58

X1

PWR

Power VSS

GND

66

X1

PWR

Power VSS

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Beck IPC@CHIP SC2x3 User manual

Beck IPC@CHIP SC2x3 User manual

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